Search

Your search keyword '"Amit Jadhav"' showing total 47 results
Start Over Author "Amit Jadhav"
47 results on '"Amit Jadhav"'

1. Analysis of stress distribution on the bone around an implant placed in the anterior maxilla using three different abutment angulations by means of finite element analysis

Author

Snehal Shende, Amit Jadhav, Dhairaysheel N Edake, Amit Hemraj Patil, Hansraj Patil, and Nitu Agrawal

Subjects
abutment, cancellous bone, cortical bone, finite element analysis, implant, von mises stresses, Pharmacy and materia medica, RS1-441, Analytical chemistry, QD71-142
Abstract

Aim: the aim of the study was to study the effect of stress distribution on the bone around an implant using angled abutments by means of finite element analysis in the anterior maxillary region. Materials and Methods: A three-dimensional (3D) model of the of patient's maxilla of right central incisor: tooth, bone, crown, implant, and abutment system were used in this study. The models were designed for three situations with straight abutment, i.e. 0°, 15°, and 20° angled abutment. The load of 178N was applied on the cingulum area of the prosthesis at an angle of 130° in relationship with the long axis of the implant. After applying the static loads on each model, the stress generated in the bone and the implant was recorded. The results will be analyzed by analysis of variance test. Results: The cortical and cancellous on Mises stresses in 20° abutment model were found to be maximum as compared to 15° abutment followed by 0° abutment. The stress was concentrated in the implant-abutment joint area. The overall stresses in 20° abutment model were found to more than 15° abutment followed by 0° abutment. The magnitude of stresses increased as the angulations increased. Conclusion: From the conclusions of this study, the stress is more multiplied in angled abutments, hence care needs to be taken when restoring implants using angled abutments, especially in patients with heavy masticatory load or when planning for cantilevering of restorations in these angled implant restoration.

Published
2021
Full Text
View/download PDF

2. Total intestinal atresia: Revisiting the pathogenesis of congenital atresias

Author

Neel Aggerwal, Nidhi Sugandhi, Harshita Kour, Goutam Chakraborty, Samir Kant Acharya, Amit Jadhav, and Deepak Bagga

Subjects
Congenital gut anomalies, embryological defects, failure of recanalization, total intestinal atresia, vascular accidents, Pediatrics, RJ1-570, Surgery, RD1-811
Abstract

Despite various theories to explain the pathogenesis of atresias, the exact mechanism is still controversial. Currently, atresias are believed to result from vascular accidents and less likely due to the failure of recanalization. We report a case which challenges this belief. A 1-day-old neonate was explored for suspected jejunal atresia. Apart from Type III jejunal atresia, 15 cm from DJ junction, there was surprisingly no distal lumen in the intestine from jejunum till rectum. Multiple enterotomies revealed the whole of the remaining jejunum, ileum, and large colon to be a solid cord-like structure. No distal luminal contents or histopathological evidence of ischemic damage was seen, thus suggesting the probable etiology to be a failure of recanalization of the gut cord rather than a late vascular accident. Such rare cases provide insights into possible embryogenetic mechanisms which can then aid in formulating preventive measures.

Published
2019
Full Text
View/download PDF

4. Needleless Electrospinning and Electrospraying of Mixture of Polymer and Aerogel Particles on Textile

Author

Abu Shaid, Lijing Wang, Rajiv Padhye, and Amit Jadhav

Subjects
Materials of engineering and construction. Mechanics of materials, TA401-492
Abstract

Needleless electrospinning and electrospraying of aerogel particles in comparatively lower electric voltage (9 kV) have been demonstrated in the paper. Aerogel particles were dispersed in polymer solution and then needlelessly electrospun/sprayed by creating high electric charge at the syringe tip using a curved wire. FTIR spectra and SEM images proved that aerogel particles were deposited onto the base textile. In case of electrospinning, a nanofibre web holding the aerogel particles covered the fabric surface, whereas in case of electrospraying, aerogel particles deposited with the microdroplets of the polymer. The electrospraying process showed great potential for fabric surface functionalization due to the high amount of particle deposition on fabric. The new approach can be applicable for transferring other particulate materials on fabric surface through needleless electrospinning and electrospraying processes.

Published
2018
Full Text
View/download PDF

5. Prospective long-term study of patency and outcomes of 505 arteriovenous fistulas in patients with chronic renal failure: Authors experience and review of literature

Author

Parag Sahasrabudhe, Tushar Dighe, Nikhil Panse, Shraddha Deshpande, Amit jadhav, and Sheetal Londhe

Subjects
arteriovenous fistula, chronic kidney disease, haemodialysis, vascular access, Surgery, RD1-811
Abstract

Background: This study describes our experience of arteriovenous fistula (AVF) creation as vascular access for haemodialysis. Materials and Methods: This study has been carried out in our hospital from January 2004 to December 2012. A total of 505 AVFs were created in 443 patients. Maximum follow-up was 8 years, and minimum was 6 months. Observations and Results: In this study of 505 cases of AVFs, primary patency rates by Kaplan — Meier analysis showed 78.81% patency of fistulas at the end of 1 year and patency dropped to 14.81% at the end of 5 years. Our primary failure rate was 21.2%. Basilic vein was used in 26.35% cases, cephalic vein in 63.5%, and antecubital vein in 9.75% cases. On table, bruit was present in 459 (90.9%) and thrill in 451 (89.3%) cases. During dialysis, flow rate >250 ml/min was obtained in 150 (29.9%) cases. In complications, 2 (0.4%) patients developed distal oedema, 33 (6.5%) developed steal phenomenon. Conclusions: Presence of on table thrill and bruit are indicators of successful AVF. If vein diameter is 2 mm were significantly higher as compared with patients with vein diam.

Published
2014
Full Text
View/download PDF

7. Laser Ablated Removable Car Seat Covers for Reliable Deployment of Side Airbags

Author

Arun Vijayan, Amit Jadhav, and Rajiv Padhye

Subjects
Transportation and communications, HE1-9990
Abstract

In the event of a collision, the safe and reliable deployment of side airbags which include side-torso and combination airbags through removable car seat covers that use tear-seam technology has been recently questioned. It is well known that a side-torso airbag system in automotive seats can reduce injuries and prevent fatalities in the event of a collision. Removable car seat covers suitable for side airbag systems are popular accessories in the automotive industry from the perspective of upholstery protection and aesthetics. This study demonstrated a better-suited technology in which laser ablation down the side panel of removable car seat covers, produced a pre-determined strength within a weakened zone that allowed a reliable airbag deployment in the event of a collision. This paper investigates the effect of laser power as a key factor in the laser ablation process and its influence on the bursting strength of the car seat cover materials. The laser-ablation of the removable car seat covers can ensure the consistent airbag deployment under environmental conditions and temperatures ranging between ambient (22 ± 2°C), cold (-35 ± 2°C) and hot (85 ± 2°C). The durability and deployment performance of these car seat covers after UV exposure was also investigated.

Published
2016

9. Cotton Disease Detection and Cure Using CNN

Author

Amit Jadhav, Shubham Chaudhari, Ankush Gupta, and Dr. S. A. Mithbavkar

Subjects
General Medicine
Abstract

Cotton is an important crop that plays a significant role in the global economy. However, cotton plants are vulnerable to various diseases that can significantly affect crop yield and quality. Therefore, the early detection and diagnosis of cotton diseases are crucial for ensuring efficient crop management and reducing economic losses. In this project, we propose a deep learning-based approach for cotton disease prediction using convolutional neural networks (CNNs) and ResNet50. The proposed system is designed to classify six different types of cotton diseases based on their visual symptoms. We collected a large dataset of cotton plant images infected with different diseases, and we used this dataset to train and evaluate our CNN model. The CNN model consists of multiple convolutional layers, followed by pooling layers and fully connected layers. We used transfer learning to fine-tune a pre-trained CNN model for our specific classification task. The proposed system achieved an overall accuracy of 97.66% on the test dataset, demonstrating its effectiveness in predicting cotton diseases. The proposed system has the potential to be used as a reliable tool for early detection and diagnosis of cotton diseases, thereby improving crop management practices and reducing economic losses.

Published
2023

15. Gastric pull-up by the retrosternal route for esophageal replacement: Feasibility in a limited-resource scenario

Author

Samir Kant Acharya, Saurav Srivastav, Anjana Sreedharan, Narinder Tekchandani, Amit Jadhav, Deepak Bagga, Prabudh Goel, Nidhi Sugandhi, and Goutam Chakraborty

Subjects
Adult, Male, Leak, medicine.medical_specialty, Esophageal hiatus, Fistula, Anastomosis, Young Adult, 03 medical and health sciences, Postoperative Complications, 0302 clinical medicine, 030225 pediatrics, medicine, Humans, Esophagus, Child, Esophageal Atresia, business.industry, Stomach, General Medicine, medicine.disease, Surgery, Dissection, medicine.anatomical_structure, Esophagoplasty, 030220 oncology & carcinogenesis, Atresia, Pediatrics, Perinatology and Child Health, Esophageal Stenosis, Feasibility Studies, Female, Dumping syndrome, business
Abstract

Objectives The authors herein report the results of esophageal replacement by gastric pull-up technique through the retrosternal route as an option for esophageal replacement in a resource-constrained setup. Method Prospectively collected data upon twenty-two consecutive patients (male:female = 17:5) with mean age 24.9 months (7 months–12 years) and mean weight 7.9 kg (4.2–32 kg) who underwent retrosternal gastric pull-up for esophageal atresia (n = 18; 16 atresia with distal fistula & 2 pure atresia) and corrosive injuries to the esophagus (n = 4) over the past 8 years are presented. The management protocol and surgical technique have been described. Observations parameters included indication for esophageal replacement, age at surgery, sex of the child and other demographic details, clinical and operative findings, post-operative outcomes and follow-up details. Results Retrosternal gastric pull-up could be performed in all cases with no mortality or graft loss. Of 22, 20 cases were extubated on-table and 2 cases were extubated within 48 hours of surgery. Mean operative duration was 265 min (range: 175 min to 310 min) and blood loss was 115.3 ml (range: 80–400 ml). Dense vascular adhesions in the region of the esophageal hiatus were encountered in patients with abdominal esophagostomy (n = 4) which were probably related to the local dissection at the time of previous surgery. Minor anastomotic leak was observed in 8 of 22 patients which settled spontaneously over 21 days mean period (range: 18 to 31 days). Antegrade dilatation was required in 3 of 8 cases with minor leak. None of them required revision of anastomosis. Mean follow-up duration is 63 months (range: 11 months – 94 months). Weight gain after surgery was close to or beyond the 25th centile. Symptoms of dumping syndrome or GER were not observed in our cohort. Conclusion Our data have demonstrated the safety and feasibility of esophageal replacement by gastric transposition through the retrosternal route in a resource-limited setup. No significant difference has been observed from the results and complications reported in literature for the same procedure. Type of study Prospective observational study / treatment study. Level of evidence Level III.

Published
2021

17. Tenosynovitis of flexor tendons of hand: Tubercular etiology

Author

Amit Jadhav, Mayur V. Devraj, and B. B. Sonawane

Subjects
medicine.medical_specialty, Tenosynovitis, Tuberculosis, business.industry, medicine.disease, Median nerve, Middle age, Surgery, Lesion, Pulmonology, Internal medicine, Etiology, medicine, Outpatient clinic, medicine.symptom, business
Abstract

Extra-pulmonary Tuberculosis (EPTB), 10% about is musculoskeletal cases. A middle age female who presented to outpatient department of tertiary care center (Medical college & Hospital) with swelling over volar surface of right distal forearm gradually increased in size over 9 to 10 months. She noticed difficulty to move fingers of right hand as size of swelling increasing. She had tingling sensation in the territory of median nerve. It was single swelling of 05cm x 07cm over the volar surface of right distal forearm with defined margins. Lesion was open surgically and rice bodies were found. Histopathological examination had shown caseous type of necrosis and granuloma formation suggestive of tuberculosis. Anti-tuberculosis treatment was given to her. Cases of TB tenosynovitis are uncommon and diagnosis is often missed causing delay of treatment to patient. Surgical intervention decided by symptoms and signs. Antitubercular therapy and excision of lesion produce good outcome. Keywords: Anti TB treatment; Rice Bodies; Surgical excision; Tenosynovitis.

Published
2020

20. Development of Integrated Microfluidic Platform Coupled with Surface-Enhanced Raman Spectroscopy for Diagnosis of COVID-19

Author

Amit Jadhav, Siddhita, Biji, Pullithadathil., Kumar Panthalingal, Manoj, Murali, Chilakapati, Kulkarni, Anjali, Rajkumar, Sankaranarayanan, Joshi, Dattatraya S., and Natarajan, Sundaram

Subjects
0301 basic medicine, Raman Spectroscopy, Coronavirus disease 2019 (COVID-19), Computer science, Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), Microfluidics, Metal Nanoparticles, Nanotechnology, Virus diseases, Spectrum Analysis, Raman, Article, 03 medical and health sciences, COVID-19 Testing, 0302 clinical medicine, Lab-On-A-Chip Devices, Biological fluids, Humans, Dimethylpolysiloxanes, Pandemics, Mass screening, Nanotubes, Carbon, SARS-CoV-2, COVID-19, Equipment Design, General Medicine, Gold standard (test), Surface-enhanced Raman spectroscopy, Microfluidic Platforms, 030104 developmental biology, 030217 neurology & neurosurgery
Abstract

Corona Virus Disease 19 (COVID-19) pandemic has created an alarming situation across the globe. Varieties of diagnostic protocols are being developed for the diagnosis of COVID-19. Many of these diagnostic protocols however, have limitations such as for example unacceptable no of false-positive and false-negative cases, particularly during the early stages of infection. At present, the real-time (quantitative) reverse transcriptase-polymerase chain reaction (RT-PCR) is considered the gold standard for COVID-19 diagnosis. However, RT-PCR based tests are complex, expensive, time consuming and involve pre-processing of samples. A swift, sensitive, inexpensive protocol for mass screening is urgently needed to contain this pandemic. There is urgent need to harness new powerful technologies for accurate detection not only of Severe Acute Respiratory Syndrome Coronavirus 2 (SARS-CoV-2) but also combating the emergence of pandemics of new viruses as well. To overcome the current challenges, the authors propose a diagnostic protocol based on surface-enhanced Raman Spectroscopy (SERS) coupled with microfluidic devices containing integrated microchannels functionalized either with vertically aligned Au/Ag coated carbon nanotubes or with disposable electrospun micro/nano-filter membranes. These devices have the potential to successfully trap viruses from diverse biological fluids/secretions including saliva, nasopharyngeal, tear etc. These can thus enrich the viral titre and enable accurate identification of the viruses from their respective Raman signatures. If the device is successfully developed and proven to detect target viruses, it would facilitate rapid screening of symptomatic as well as asymptomatic individuals of COVID-19. This would be a valuable diagnostic tool not only for mass screening of current COVID -19 pandemic but also in viral pandemic outbreaks of future.

Published
2020

21. Electrospun Nanodiamond-Silk Fibroin Membranes: A Multifunctional Platform for Biosensing and Wound-Healing Applications

Author

Billy J. Murdoch, Christina A. Bursill, Asma Khalid, Dongbi Bai, Achini K. Vidanapathirana, Amanda N. Abraham, Alex Matusica, Elena P. Ivanova, Denver P. Linklater, Shadi Houshyar, Nadia Zakhartchouk, Duy H. K. Nguyen, David Simpson, Chaitali Dekiwadia, Amit Jadhav, Philipp Reineck, and Brant C. Gibson

Subjects
Materials science, Biocompatibility, Surface Properties, Silk, Fibroin, Biocompatible Materials, 02 engineering and technology, Biosensing Techniques, 010402 general chemistry, 01 natural sciences, Nanodiamonds, Wound care, Mice, Animals, General Materials Science, Particle Size, Nanodiamond, Wound Healing, integumentary system, 021001 nanoscience & nanotechnology, Electrospinning, 0104 chemical sciences, Mice, Inbred C57BL, Membrane, 0210 nano-technology, Hybrid material, Wound healing, Fibroins, Biomedical engineering
Abstract

Next generation wound care technology capable of diagnosing wound parameters, promoting healthy cell growth, and reducing pathogenic infections noninvasively would provide patients with an improved standard of care and accelerated wound repair. Temperature is one of the indicating biomarkers specific to chronic wounds. This work reports a hybrid, multifunctional optical material platform-nanodiamond (ND)-silk membranes as biopolymer dressings capable of temperature sensing and promoting wound healing. The hybrid structure was fabricated through electrospinning, and 3D submicron fibrous membranes with high porosity were formed. Silk fibers are capable of compensating for the lack of an extracellular matrix at the wound site, supporting the wound-healing process. Negatively charged nitrogen vacancy (NV-) color centers in NDs exhibit optically detected magnetic resonance (ODMR) and act as nanoscale thermometers. This can be exploited to sense temperature variations associated with the presence of infection or inflammation in a wound, without physically removing the dressing. Our results show that the presence of NDs in the hybrid ND-silk membranes improves the thermal stability of silk fibers. NV- color centers in NDs embedded in silk fibers exhibit well-retained fluorescence and ODMR. Using the NV- centers as fluorescent nanoscale thermometers, we achieved temperature sensing in 25-50 °C, including the biologically relevant temperature window, for cell-grown ND-silk membranes. An enhancement (∼1.5× on average) in the temperature sensitivity of the NV- centers was observed for the hybrid materials. The hybrid membranes were further tested in vivo in a murine wound-healing model and demonstrated biocompatibility and equivalent wound closure rates as the control wounds. Additionally, the hybrid ND-silk membranes exhibited selective antifouling and biocidal propensity toward Gram-negative Pseudomonas aeruginosa and Escherichia coli, while no effect was observed on Gram-positive Staphylococcus aureus.

Published
2020

22. Electrospun diamond-silk membranes for biosensing applications

Author

Christina A. Bursill, Chaitali Dekiwadia, Duy H. K. Nguyen, Philipp Reineck, Shadi Houshyar, Andrew D. Greentree, Dongbi Bai, Amit Jadhav, Achini K. Vidanapathirana, Alex D. Matusica, Denver P. Linklater, Brant C. Gibson, Elena P. Ivanova, Asma Khalid, and Amanda N. Abraham

Subjects
Materials science, Biocompatibility, business.industry, Diamond, engineering.material, Electrospinning, Contact angle, Membrane, Thermal conductivity, Vacancy defect, engineering, Optoelectronics, business, Biosensor
Abstract

This work reports nanodiamond-silk membranes as an optical platform for biosensing and cell growth applications. The hybrid structure was fabricated through electrospinning and mimics a 2D scaffold with high porosity. The negatively charged nitrogen vacancy (NV-) centres in diamond exhibits optically detected magnetic resonance (ODMR), which enables sensing of temperature variations. The NV- centre, as reported in literature, provides a shift of 74 kHz in the ODMR frequency per degree rise in temperature. For our hybrid membranes, we have however observed that the embedded NV- centre provide a greater shift of 95±5 kHz/K in the ODMR frequency. This higher shift in the frequency will result in improved temperature sensitivity enabling the tracking of thermal variations in the biologically relevant window of 25-50 oC. The thermal conductivity of silk and diamond-silk hybrid will be explored to investigate this enhanced temperature sensing ability of diamond. The hybrid diamond-silk membranes are found to be hydrophilic with a contact angle of (65±2)o. The biocompatibility of the membranes is tested both in vitro in skin keratinocyte (HaCaT) cells and in vivo in a live mouse wound model. The membranes did not induce any toxicity to the cell growth and survival. Moreover, we observed resistance towards the growth and attachment of bacteria.

Published
2019

23. Limb salvage with microvascular free fibula following primary bone sarcoma resection

Author

Parag, Sahasrabudhe, Yogesh, Panchwagh, Rathod, Jesal, Nikhil, Panse, and Amit, Jadhav

Subjects
Excision (Surgery) -- Patient outcomes, Bone tumors -- Case studies, Limb salvage -- Methods -- Patient outcomes, Sarcoma -- Care and treatment, Health
Abstract

Byline: Sahasrabudhe. Parag, Panchwagh. Yogesh, Jesal. Rathod, Panse. Nikhil, Jadhav. Amit Background: Extremity sarcomas are challenging to manage. Total eradication of tumour has to be balanced with restoration of limb [...]

Published
2016

24. Polypropylene-nanodiamond composite for hernia mesh

Author

Rajkishore Nayak, Amitava Bhattacharyya, Kate Fox, Shadi Houshyar, Robert A. Shanks, Aaqil Rifai, G. Sathish Kumar, Avik Sarker, Tanushree Saha, Rajiv Padhye, and Amit Jadhav

Subjects
Materials science, Biocompatibility, Plasma Gases, Surface Properties, medicine.medical_treatment, Composite number, Bioengineering, Biocompatible Materials, 02 engineering and technology, CHO Cells, engineering.material, 010402 general chemistry, Polypropylenes, 01 natural sciences, Nanodiamonds, Biomaterials, chemistry.chemical_compound, Cricetulus, Coating, Cricetinae, Elastic Modulus, medicine, Animals, Composite material, Nanodiamond, Cell Proliferation, Polypropylene, Nanocomposite, Serum Albumin, Bovine, Surgical Mesh, 021001 nanoscience & nanotechnology, Hernia repair, 0104 chemical sciences, chemistry, Mechanics of Materials, engineering, Cattle, Adsorption, 0210 nano-technology, Protein adsorption
Abstract

Commercial hernia mesh is commonly made from polypropylene (PP), due to its inertness, biocompatibility, physical properties, ease of processing and versatility for conversion into flexible shape. However, reportedly hernia mesh prepared from PP experienced issues such as diminished long-term strength, foreign body rejection, lack of biocompatibility and high adhesion to the abdomen wall. Infiltration of the mesh by soft tissue (called remodeling) results in an integration of mesh into the body, leading to a rapid reduction in mesh mechanical properties and potential infection. Here, this study addresses these issues through the incorporation of nanodiamond (ND) into PP filament and coating on the surface of plasma-treated PP-ND mesh. The results show that the dynamic modulus of the PP-ND mesh increased significantly, without compromising its flexibility. Coating PP-ND mesh with hydroxylated ND led to a reduction in nonspecific protein adsorption onto the surface of nanocomposite, which is an important characteristic for hernia mesh to prevent foreign body reaction, attachment of mesh to the abdominal wall and nearby organs. In-vitro study with mammalian cells shows that coated PP-ND mesh with functionalized ND exhibits a significant increase in the number of adhered cells with more elongated morphology in comparison with other PP meshes, due to the better hydrophilicity. Therefore, the ND coated nanocomposite mesh can be a promising candidate for hernia repair in the future; however, more investigation is required.

Published
2019

25. Towards sustainable and safe apparel cleaning methods: A review

Author

Amit Jadhav, Nazia Nawaz, Roy Kettlewell, Chris Watson, and Olga Troynikov

Subjects
Tetrachloroethylene, Engineering, Environmental Engineering, 010504 meteorology & atmospheric sciences, Cleaning methods, 010501 environmental sciences, Management, Monitoring, Policy and Law, 01 natural sciences, Occupational Exposure, Waste Management and Disposal, Laundering, 0105 earth and related environmental sciences, Research evidence, Waste management, business.industry, Water, Wet cleaning, Green Chemistry Technology, General Medicine, Dry cleaning, Clothing, Solvents, Liquid carbon, Trace analysis, business, Environmental Monitoring
Abstract

Perchloroethylene (PERC) is a compound commonly used as a solvent in dry cleaning, despite its severe health and environmental impacts. In recent times chemicals such as hydrocarbons, GreenEarth(®), acetal and liquid carbon dioxide have emerged as less damaging substitutes for PERC, and an even more sustainable water-based wet cleaning process has been developed. We employed a systematic review approach to provide a comprehensive overview of the existing research evidence in the area of sustainable and safe apparel cleaning methods and care. Our review describes traditional professional dry cleaning methods, as well as those that utilise solvents other than PERC, and their ecological attributes. In addition, the new professional wet cleaning process is discussed. Finally, we address the health hazards of the various solvents used in dry cleaning and state-of-the-art solvent residue trace analysis techniques.

Published
2016

26. Air Permeability and Moisture Management Properties of Electrospun Nanofiber Membranes

Author

Rajkishore Nayak, Vinod Kadam, Rajiv Padhye, Lijing Wang, and Amit Jadhav

Subjects
Materials science, General Computer Science, Airflow, Polyacrylonitrile, Electrospinning, law.invention, chemistry.chemical_compound, chemistry, law, Nanofiber, Air permeability specific surface, Deposition (phase transition), General Materials Science, Composite material, Porosity, Filtration
Abstract

Recently, electrospun nanofiber membranes (ENMs) have been received an increased attention in personal protective clothing owing to their excellent filtration efficiency and low basis weight as filtering materials. However, high resistance to air flow is a major drawback of ENMs which in turn effect on comfort. In addition, comfort properties such as moisture management of ENMs need to be evaluated for practical applications. It is argued that air permeability and moisture management influenced by selection of electrospinning process parameters. This research studied the effect of collector speed and deposition time on the air permeability of ENMs. Polyacrylonitrile nanofibers that had the diameter in the range of 291-877 nm were fabricated. The deposition time significantly influenced air permeability, unlike collector speed. Hence a short deposition time is desirable. A good correlation was found between the theoretical porosity and experimental air permeability of ENM. Furthermore, it was found that moisture management properties of ENM require improvements for personal protective clothing.

Published
2016

27. Application of Electrospray Coating Technique to impart Multifunctionality to Textile Substrates

Author

Amit Jadhav, Lijing Wang, and Rajiv Padhye

Subjects
chemistry.chemical_classification, Electrospray, Materials science, General Computer Science, 02 engineering and technology, Substrate (printing), Polymer, engineering.material, 021001 nanoscience & nanotechnology, 030226 pharmacology & pharmacy, Contact angle, 03 medical and health sciences, Thermoplastic polyurethane, 0302 clinical medicine, chemistry, Coating, Specific surface area, engineering, Surface roughness, General Materials Science, Composite material, 0210 nano-technology
Abstract

Electrospray coating is a method of generating fine droplets of polymer through high electrostatic charging. It involves electrohydrodynamic process for forming fine polymer droplets. These droplets are highly charged that promotes self-dispersion which results in uniform coating on substrate. Electrospray coating can be successfully utilised as a coating technique to coat textile substrates. Textiles substrate coated with electrosprayed polymer droplets have a large specific surface area and it facilitates submicron range coating compared to conventional coating methods like roller coating or knife coating. This research study investigates the electrospray coating of thermoplastic polyurethane polymer on textile substrate. The results showed that electrospraying facilitated the submicron size droplets deposition on textile substrates which imparted the waterproof property to the substrate without altering the moisture management and surface properties of textile substrate.

Published
2016

28. Audit of 37 cases of deep sternal wound infections (DSWIs) following 2418 coronary artery bypass graftings (CABGs)

Author

Nilesh M Juvekar, Parag Sahasrabudhe, Nikhil Panse, Sampada Patwardhan, Amit Jadhav, and Ranjit Jagtap

Subjects
Pulmonary and Respiratory Medicine, education.field_of_study, medicine.medical_specialty, business.industry, medicine.medical_treatment, Incidence (epidemiology), Population, 030204 cardiovascular system & hematology, Vascular surgery, Surgery, Cardiac surgery, 03 medical and health sciences, Exact test, 0302 clinical medicine, 030228 respiratory system, Median sternotomy, Cardiothoracic surgery, Anesthesia, Medicine, Risk factor, Cardiology and Cardiovascular Medicine, business, education
Abstract

The purpose of this paper is to study the incidence of deep sternal wound infections (DSWIs) after median sternotomy, its correlation to demographic data, diabetes mellitus (DM), choice of vessels used for coronary artery bypass grafting (CABG), microbiological wound status, and outcome of surgical management in terms of complete wound healing, postoperative stay, and mortality. A total of 2418 patients who underwent CABG through median sternotomy from January 2005 to December 2013 were included in the study. DSWI was found in 37 patients. Logistic regression, Fisher’s exact test, and chi-squared test were used to find association, and a p value of

Published
2016

29. Formulation And Evaluation Of Oral Fast Dissolving Film Of Cinnarizine

Author

Mahesh Shinde*, Vikas Choure, Shahadev Rathod, Arvind Birajdar, Amit Jadhav

Subjects
Oral fast dissolving film, cinnarizine, motion sickness, menier's disease, HPMC E5, PEG 400, solvent casting
Abstract

Cinnarizine is a H1 anti-histaminic drug and it can be used in the treatment of nausea, vomiting, motion sickness, vertigo and in menier’s disease. The purpose of present work was a development of fast dissolving oral film of cinnarizine, to overcome the limitation of current routes of administration to provide faster dissolution rate and increase the patient compliance. The amount of dose of drug calculate according to the area covered by the 15ml formulation without drug. The amount of drug was then used for the preparation of film by using solvent casting method utilizing HPMC E5 as a film forming polymer and PEG 400 as a plasticizer. The 32 factorial design was applied for optimization of concentration of polymer HPMC E5 and plasticizer PEG 400. The prepared film were evaluated for various parameters like film thickness, folding endurance, drug content, dispersion test, uniformity of weight, surface pH measurement, moisture loss study, in vitro drug dissolution study, disintegration time and stability study.in vitro drug dissolution studies were carried out using simulated salivary fluid (pH 6.8 phosphate buffer).among all the formulation, formulation (F5) which contain HPMC E5 (15%)and PEG400( 6%) were released upto 98.17% of the drug from the film within 25 sec. which exhibit faster absorption and also shows desirable characteristics of film than other formulation. Keywords: Oral fast dissolving film, cinnarizine, motion sickness, menier’s disease, HPMC E5, PEG 400, solvent casting

Published
2018
Full Text
View/download PDF

30. Formulation And Evaluation Of Herbal Antiseptic - Hemostatic Solution

Author

Sudarshan Jagtap*, Deepak Sawant, Prashant Salunke, Dr. Nayan Gujarathi, Amit Jadhav, Abhishek Sagade

Subjects
Azadirachta indica , Curcuma longa , Acacia catechu, Antiseptic, Hemostatic
Abstract

Traditionally Used solutions for the treatment of Cuts , Open wounds ,Abrasions of skin , Incisions are only having the antiseptic ( antimicrobial ) activity but they do not stop the bleeding; hence to overcome this problem we are developed a formulation by formulating the number of batches by designing the23 factorial design of herbals Azadirachta indica (Neem) ,Curcuma longa (Turmeric) and Acacia catechu (Kattha) to act as a antiseptic and hemostatic by applying solution on the cuts and wounds . The plants have been reported in the literature as having good antimicrobial, anti-inflammatory and Hemostatics (Astringent) Activity. The prepared formulation was evaluated for various parameters like appearance, colour, pH, Consistency, Viscosity and antimicrobial activity. The formulation of Batch# F4 was compared with the marketed preparation Betadine (5 % Povidone Iodine). It is a very good attempt to establish the herbal antiseptic-Hemostatic Solution containing Extracts of Azadirachta indica (Neem) ,Curcuma longa (Turmeric) and Acacia catechu (Kattha) . Antiseptic-Hemostatic Solution was successfully designed and developed after extensive manufacturing and evaluation process by specialized techniques for evaluation of antiseptic –hemostatic activity in vitro. Keywords: Azadirachta indica , Curcuma longa , Acacia catechu, Antiseptic, Hemostatic.

Published
2018
Full Text
View/download PDF

31. Needleless Electrospinning and Electrospraying of Mixture of Polymer and Aerogel Particles on Textile

Author

Rajiv Padhye, Amit Jadhav, Lijing Wang, and Abu Shaid

Subjects
chemistry.chemical_classification, Materials science, Textile, Article Subject, business.industry, General Engineering, Aerogel, 02 engineering and technology, Polymer, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Electric charge, Electrospinning, 0104 chemical sciences, chemistry, Particulate material, lcsh:TA401-492, Surface modification, General Materials Science, lcsh:Materials of engineering and construction. Mechanics of materials, Composite material, 0210 nano-technology, business, Particle deposition
Abstract

Needleless electrospinning and electrospraying of aerogel particles in comparatively lower electric voltage (9 kV) have been demonstrated in the paper. Aerogel particles were dispersed in polymer solution and then needlelessly electrospun/sprayed by creating high electric charge at the syringe tip using a curved wire. FTIR spectra and SEM images proved that aerogel particles were deposited onto the base textile. In case of electrospinning, a nanofibre web holding the aerogel particles covered the fabric surface, whereas in case of electrospraying, aerogel particles deposited with the microdroplets of the polymer. The electrospraying process showed great potential for fabric surface functionalization due to the high amount of particle deposition on fabric. The new approach can be applicable for transferring other particulate materials on fabric surface through needleless electrospinning and electrospraying processes.

Published
2018

33. The impact of super-absorbent materials on the thermo-physiological properties of textiles

Author

Arun Vijayan, Sandip Ranjan, Rajiv Padhye, Shadi Houshyar, and Amit Jadhav

Subjects
Textile, Materials science, Polymers and Plastics, Moisture, business.industry, Thermal strain, Clothing, Super absorbent, Thermal insulation, Air permeability specific surface, Chemical Engineering (miscellaneous), Composite material, business, Water vapor
Abstract

The use of appropriate protective clothing systems in high-risk environments is absolutely essential. Such protective clothing may not provide the desired wearer comfort due to the complexities associated with the system. These constraints are largely due to the multiple layers involved in the protective ensemble. Firefighters’ protective clothing systems, in particular, have limited or no water vapor permeability. This prevents evaporative heat loss and leads to thermal strain and sweat accumulation. This accumulated sweat on the skin and on the internal layer close to the body causes considerable discomfort to the user due to the sensation of wetness. Extensive research has been done to improve the comfort properties of such protective clothing. This research adds yet another dimension where a new inner-layer construction has been developed with high liquid and vapor-absorption capacity that could assist in keeping the moisture and vapor away from the skin and, in addition, retain a dry microclimate close to the skin. The developed materials were tested for their biophysical properties that included tests such as thermal and water vapor resistance, air permeability and moisture management properties. Experimental results in this study indicated that super-absorbent materials, when incorporated into a woven textile material, showed enhanced wearer comfort. It was observed that these super-absorbent materials have the capability to quickly wick the moisture away from the body and, in doing so, have the tendency to keep the skin dry.

Published
2014

34. Prospective long-term study of patency and outcomes of 505 arteriovenous fistulas in patients with chronic renal failure: Authors experience and review of literature

Author

Nikhil Panse, Amit Jadhav, Sheetal Londhe, Tushar Dighe, Parag Sahasrabudhe, and Shraddha Deshpande

Subjects
Cephalic vein, medicine.medical_specialty, Basilic Vein, business.industry, medicine.medical_treatment, Fistula, lcsh:Surgery, Arteriovenous fistula, vascular access, lcsh:RD1-811, medicine.disease, Surgery, haemodialysis, medicine.anatomical_structure, Forearm, medicine.artery, medicine, Original Article, Brachial artery, business, Vein, arteriovenous fistula, Dialysis, chronic kidney disease
Abstract

Background: This study describes our experience of arteriovenous fistula (AVF) creation as vascular access for haemodialysis. Materials and Methods: This study has been carried out in our hospital from January 2004 to December 2012. A total of 505 AVFs were created in 443 patients. Maximum follow-up was 8 years, and minimum was 6 months. Observations and Results: In this study of 505 cases of AVFs, primary patency rates by Kaplan — Meier analysis showed 78.81% patency of fistulas at the end of 1 year and patency dropped to 14.81% at the end of 5 years. Our primary failure rate was 21.2%. Basilic vein was used in 26.35% cases, cephalic vein in 63.5%, and antecubital vein in 9.75% cases. On table, bruit was present in 459 (90.9%) and thrill in 451 (89.3%) cases. During dialysis, flow rate >250 ml/min was obtained in 150 (29.9%) cases. In complications, 2 (0.4%) patients developed distal oedema, 33 (6.5%) developed steal phenomenon. Conclusions: Presence of on table thrill and bruit are indicators of successful AVF. If vein diameter is 2 mm were significantly higher as compared with patients with vein diam.

Published
2014

36. Effect of Field Strength on Polymer Aggregation in Electrohydrodynamic Spraying of Thermoplastic Polyurethane

Author

Rajiv Padhye, Lijing Wang, and Amit Jadhav

Subjects
chemistry.chemical_classification, Range (particle radiation), Materials science, Field strength, General Medicine, Polymer, engineering.material, Thermoplastic polyurethane, Coating, chemistry, Electric field, engineering, Electrohydrodynamics, Composite material, Voltage
Abstract

Polymer solution interacts with the electric field in an electrohydrodynamic (EHD) spraying process. Charged polymeric solution forces polymer liquids to move, break into spray of fine droplets. EHD spraying has the ability to generate very small & uniform droplets of polymeric solution. It is envisaged that EHD Spraying is a promising technology to coat a polymer on substrate at submicron range. The polymer aggregation is important while coating. The process parameters including applied voltage, nozzle-collector distance, solution flow rate, and solution concentration plays an important role in polymer droplets aggregation on surface. Field strength is also plays important role while EHD spraying. Field strength is the rate of change of potential with respect to distance. This research paper investigates the effect of field strength on aggregation of polymer droplets.

Published
2013

37. Thermal Comfort Characteristics of Knitted Fabrics for Abaya

Author

Sinnappoo Kanesalingam, Salwa Tashkandi, Amit Jadhav, and Lijing Wang

Subjects
Engineering, Environmental temperature, business.industry, Thermal resistance, Air permeability specific surface, General Engineering, Thermal comfort, Composite material, Clothing, business, Whole body, Fibre composition
Abstract

Fabric material plays an important role in the thermal comfort of Abaya because it is the outer garment of Muslim women. Abaya is black in colour and covers the whole body except the hands, feet and face. It is mandatory to wear Abaya in the Saudi Arabia and certain parts of Middle East countries irrespective of the outside environmental temperature which could be up to 45°C. Therefore, the thermal transmission characteristics of the abaya are extremely important as human body responds to the external thermal environment through clothing. In a hot environment, it is extremely uncomfortable to wear several layers of clothing under the Abaya. Hence it is essential to enhance the thermal comfort of fabrics used for Abaya. This study investigated five selected knitted fabrics that could be used as Abaya fabrics for thermal resistance, air permeability, thermal comfort and vapour resistance. The results indicated that the fabrics with different knit structures, fibre composition and fabric weight have greater influence on thermal comfort performance.

Published
2012

38. Effect of Applied Voltage on Polymer Aggregation in Electrospraying of Thermoplastic Polymer

Author

Lijing Wang, Amit Jadhav, and Rajiv Padhye

Subjects
chemistry.chemical_classification, Range (particle radiation), Materials science, General Engineering, Polymer, engineering.material, Electrospinning, chemistry, Coating, Electric field, engineering, Electrohydrodynamics, Composite material, Thermoplastic polymer, Voltage
Abstract

In an electrospraying process, the polymer solution interacts with the electric field. Charged polymeric solutions causing polymer liquids to move, break into drops or spray into fine droplets. Electrospraying has the ability to generate very small & uniform droplets of polymeric solution. It is envisaged that electrospraying is a promising technology to coat a polymer on surface at submicron range. The polymer aggregation is important while coating. The process parameters including applied voltage, nozzle-collector distance, solution flow rate, and solution concentration play an important role in polymer droplets aggregation on surface. This research paper investigates the effect of applied voltage on aggregation of polymer droplets.

Published
2012

39. Effect of Process Parameters on Jet Length in Electrospraying of Thermoplastic Polymer

Author

Lijing Wang, C. A. Lawrence, Amit Jadhav, and Rajiv Padhye

Subjects
chemistry.chemical_classification, Materials science, Textile, business.industry, General Engineering, Polymer, engineering.material, Electrospinning, Thermoplastic polyurethane, Coating, chemistry, Scientific method, engineering, Electrohydrodynamics, Composite material, business, Voltage
Abstract

Electrospraying is inexpensive and an effective way to produce submicron range coating. Spray Angle and Jet Length are important characteristics that affect coating quality while polymer solution subjected to electrospraying. It was of interest to determine the effect of the process parameters on Jet Length. In this paper, an attempt was made to apply the electrospraying concept for coating textile surfaces. Series of experiments were carried out employing different settings of process parameters such as voltage, nozzle-collector distance and polymer concentration. Thermoplastic polyurethane dissolved in tetrahydrofluran was used as a solution. The results provide some insight into the effect of electrospraying process parameters on Jet Length

Published
2012

40. Surface Deposition of Chitosan on Wool Substrate by Electrospraying

Author

Lijing Wang, Rajiv Padhye, Tong Lin, Lyndon Arnold, Amit Jadhav, Xungai Wang, Saniyat Islam, and Jian Fang

Subjects
Textile, Materials science, business.industry, Nozzle, General Engineering, engineering.material, Volumetric flow rate, Coating, Shear stress, engineering, Deposition (phase transition), Electrohydrodynamics, Electric potential, Composite material, business
Abstract

Electrospraying or electrohydrodynamic spraying is a technique of liquid atomisation by utilising electrical forces. In the electrospraying technique, the liquid at the outlet of a nozzle is subjected to an electrical shear stress by maintaining the nozzle at high electric potential. This produces a fine mist of extremely small and in some cases down to nanometer size droplets. The charge and size of the droplets can be controlled by adjusting the flow rate and voltage applied to the nozzle. Extending the scope of electrospraying, textile substrates can be coated with suitable polymer solution to enhance the surface functionalisation. This paper highlights the deposition of chitosan on wool subtrates using elctrospraying and its potential application in medical textiles.

Published
2011

41. Study of Electrospraying Characteristics of Polymer Solution Coating on Textile Substrate

Author

C. A. Lawrence, Rajiv Padhye, Amit Jadhav, and Lijing Wang

Subjects
chemistry.chemical_classification, Materials science, General Engineering, Mist, Substrate (printing), Polymer, engineering.material, Electrospinning, Thermoplastic polyurethane, chemistry, Coating, engineering, Deposition (phase transition), Electrohydrodynamics, Composite material
Abstract

Electrospraying is a method of generating fine mist through electrostatic charging. It is a versatile method based on electrohydrodynamic process for forming small droplets. These droplets are highly charged. This prevents droplet coagulation and promotes self-dispersion which results in uniform coating on the target substrate. Electrospraying is inexpensive and an effective way to produce micro-scale coating. In this paper, an attempt was made to apply the electrospraying concept for coating textile surfaces. It was of interest to develop an understanding of the spraying characteristics of a polymer solution subjected to electrospraying and to determine the effect of the process parameters such as voltage, nozzle-collector distance and polymer concentration. Series of experiments were carried out employing different settings of process parameters. Thermoplastic polyurethane dissolved in tetrahydrofluran was used as a solution. The results provide some insight into selection of electrospraying parameters, and surface morphology of polymer deposition on fabric.

Published
2011

42. Fabric sourcing and selection

Author

Amit Jadhav and Arun Vijayan

Subjects
Product design specification, Engineering, Textile technology, Commerce, Demographics, business.industry, Manufacturing process, Business sector, Fast fashion, Clothing, business, Child labour
Abstract

The impact of global trade in apparel manufacturing has evolved the concept of fast fashion in a scenario where apparel is produced quickly with a low cost and with the 'chic look' now dominating the retail world. Fast fashion is mass-produced, reasonable in price for most consumers and easy to obtain, making it simple for anyone to look stylish. However, to become dominant in this retail business sector, fabric sourcing and selection have become a pivotal stage in the manufacturing process. This chapter will encompass a critical review of the traditional and fast fashion approach with special focus on fabric sourcing, inspection, faults, grading and forthcoming trends. Today, the clothing market changes rapidly based on the demographics, and easy and low cost sourcing. What is considered modern today, may be out of fashion tomorrow. This puts a lot of pressure on a clothing farm's ability to change the production stream quickly and thereby altering the flexibility of the supplier. Concerns about child labour, employees' work conditions, and environmental concerns have put addition pressure on clothing manufacturers and retailors.

Published
2015

43. Influence of Applied Voltage on Droplet Size Distribution in Electrospraying of Thermoplastic Polyurethane

Author

Rajiv Padhye, Lijing Wang, and Amit Jadhav

Subjects
chemistry.chemical_classification, endocrine system, Materials science, technology, industry, and agriculture, Substrate (electronics), Polymer, engineering.material, complex mixtures, eye diseases, law.invention, Thermoplastic polyurethane, Coating, chemistry, law, Specific surface area, engineering, Composite material, Current (fluid), Filtration, Voltage
Abstract

Textiles substrate coated with electrosprayed polymer droplets have a large specific surface area and sub micron range coating compared to commercial textiles, making them excellent candidates for use in medical and filtration applications. While the process of electrospraying is known for over half a century, current understanding of the process and the parameters that influence the properties of the polymer droplets produced from it is very limited. In this work, we have evaluated the influence of applied voltage on polymer droplet diameter. We find that applied voltage strongly affects the diameter of polymer droplet, and droplet diameter decreases with an increase in applied voltage.

Published
2013

44. An Approach to Modeling Error in Air-Midas Using Contextual Control Model

Author

Savita Verma, Amit Jadhav, and Kevin M. Corker

Subjects
Integrated design, Engineering, business.industry, Control (management), Human error, Context (language use), Cognition, Air traffic control, Medical Terminology, Operator (computer programming), Artificial intelligence, Predictability, business, Medical Assisting and Transcription
Abstract

Predictability of the possible avenues of human error is important for designing error recovery mechanisms in systems' interfaces. Our approach for modeling errors during the taxiing and pre-flight phase, involves using Hollnagel's (1993) Contextual Control Model (CoCoM). Hollnagel postulates that changes in the human's operational context make her switch control modes or cognitive strategies. Previously, Verma & Corker (2002) encoded rules to implement CoCoM for Air Traffic Controllers (ATCo) in the Air-MIDAS (Man-Machine Integrated Design and Analysis System) architecture. They defined the operational context as the number of simultaneous goals and the event horizon time required to successfully complete those goals, and also encoded behavior associated with three types of cognitive strategies- unplanned, tactical, and strategic. In this study, new sets of rules are being coded for the pilots, such mat changes in the context will cause the simulated operator to change cognitive strategies. The dependent variables of interest are cognitive strategies used by pilot-agents, workload, status of tasks (completed, aborted, working), and consequences of errors performed.

Published
2003

45. Production of Bicomponent Polymer Droplets by Electrospraying

Author

Rajiv Padhye, Amit Jadhav, and Lijing Wang

Subjects
chemistry.chemical_classification, Fabrication, Materials science, Energy-dispersive X-ray spectroscopy, Polymer, Substrate (printing), engineering.material, Polyvinyl chloride, chemistry.chemical_compound, Thermoplastic polyurethane, chemistry, Coating, engineering, Composite material, Thin film
Abstract

Electrospraying is a method of generating a fine mist through electrostatic charging. It is used for producing polymer droplets at submicron range, which enhances functional properties of the substrate after deposition by providing thin level coating and larger surface area. In this research, in order to impart multifunctionality to substrate, the two distinct polymers thermoplastic polyurethane (TPU) and poly vinyl chloride (PVC) are electrosprayed simultaneously by specially designed nozzle. Energy dispersive spectroscopy (EDS) was used to confirm the bicomponent droplet fabrication. The results show that new electrospraying system demonstrated the feasibility of producing bicomponent TPU/PVC polymer droplets.

Published
2014

46. Air MIDAS

Author

Koji Muraoka, Savita Verma, Kevin M. Corker, Amit Jadhav, and Brian F. Gore

Subjects
Computer science
Published
2007

47. Examining air transportation safety issues through agent-based simulation incorporating human performance models

Author

Amit Jadhav, Savita Verma, Michael H. Abkin, Alexander Gilgur, Seung Man Lee, R. C. Bea, Amy R. Pritchett, and Kevin M. Corker

Subjects
Engineering, Asynchronous communication, Software agent, business.industry, Systems engineering, Free flight, Scenario testing, Air traffic control, Avionics, Software architecture, business, Flight simulator, Simulation
Abstract

Agent-based simulation may provide an effective method of evaluating safety issues in air traffic control. For example, simulation of human performance models of controllers and pilots, interacting with aircraft avionics systems and with communication, navigation, and surveillance technologies, may assess both the individual behavior of these agents and the overall emergent behavior of the air traffic control system. This paper describes a collaborative effort in developing an agent-based simulation of air traffic control. In order to exercise the capabilities of the proposed approach, a test scenario was developed to investigate the impact of new avionics systems which provide alerts of clear air turbulence (CAT) to flight crews. An agent-based simulation using the Reconfigurable Flight Simulator (RFS) software architecture and its asynchronous timing methods is outlined. Adaptation of the Man-machine Integration Design and Analysis System (MIDAS) human performance model to model the behavior of pilots and air traffic controllers and to interact with RFS is detailed, including description of an algorithm implemented to synchronize the timing between RFS and MIDAS. This paper then discusses the use of agent-based simulation incorporating human performance models as a means to assess safety.

Published
2003

Catalog

Books, media, physical & digital resources
See catalog results