Your search keyword '"Alan Raj"' showing total 13 results

1. On‐Chip Differentiation of Hepatic Cords with Radial Flow.

Author

Rajendran, Alan Raj Jeffrey, Bensalem, Sakina, Messina, Antonietta, Benzoubir, Nassima, Ghasemi, Rasta, Duclos‐Vallée, Jean‐Charles, and Le Pioufle, Bruno

Subjects

*RADIAL flow, *BILE, *CELL culture, *MICROFLUIDIC devices, *BLOOD flow, *ELECTRICAL engineers, *PERIODICAL publishing

Abstract

Due to a more physiological reproduction of the in vivo situation, liver‐on‐a‐chip devices in recent studies have shown higher sensitivity and accuracy for hepatotoxicity testing compared to traditional in vitro liver models. In this context, this work presents an original microfluidic device mimicking 3D hepatic cords organized radially, like in the liver lobule. Ten cell‐culture chambers seeded at a high density are disposed with a parallelized flow that emulates blood flow from the portal triad to the central vein in the liver lobule. Using this device, on‐chip differentiation of human HepaRG‐Hepatoblast (HepaRG‐HB) to HepaRG‐Hepatocytes (HepaRG‐HC) has been studied in terms of self‐organization capabilities, bile canaliculi formation and albumin expression. Our results indicate that due to the design of the cell culture chamber, which mechanically constrains tissue proliferation, and the physiologically relevant microfluidic flow condition used during tissue development, the HepaRG‐HBs in the device can proliferate, self‐organize, and spontaneously differentiate in a DMSO free medium forming long, directional bile canaliculi. On the contrary, under the same conditions, differentiated HepaRG‐HC is observed to aggregate without long bile canaliculi and form tissues resembling traditional HepaRG‐HC cultures. © 2024 Institute of Electrical Engineers of Japan. Published by Wiley Periodicals LLC. [ABSTRACT FROM AUTHOR]

Published

2024

2. Statistical Design of Experiments Using R Program for the Optimization of an Extended-Release Neem Oil Matrix Tablet

Author

Swathy K K, Sarath Chandran C, Sourav K, Jafna M C, Alan Raj, and Shijina Kappally

Subjects

Drug Discovery, Pharmaceutical Science

Published

2022

3. Role of theranostics in targeting inflammation in chronic diseases

Author

C. Sarath Chandran, Alan Raj, K. Sourav, and K.K. Swathy

Published

2023

4. Chitosan-Based Drug Delivery Systems for Respiratory Diseases

Author

C. Sarath Chandran, Krishnameera Sajayan, Shijina Kappally, M. Gowtham, Alan Raj, and K. K. Swathy

Published

2023

5. Contributors

Author

Shweta Agarwal, Sattam Khulaif Alenezi, Khalid Saad Alharbi, Aaliya Ali, Mohd Nazam Ansari, Vimal Arora, Nazia Banday, Tapan Behl, Devidas S. Bhagat, Nitish Bhatia, Shome Sankar Bhunia, Ananya Bishnoi, Gunjan Vasant Bonde, Amir-Modarresi Chahardehi, Yinghan Chan, Silpi Chanda, Pooja A. Chawla, Viney Chawla, Dinesh Kumar Chellappan, Xiangmei Cui, Koushik Das, Utsab Debnath, Hari Prasad Devkota, Kamal Dua, Harish Dureja, Saeema Farooq, Prakrati Garg, Ajmer Singh Grewal, Gaurav Gupta, Mahesh Gupta, Saurav Kumar Jha, Erazuliana Abd Kadir, null Kamini, Neha Kanojia, Bhupinder Kapoor, Sukhanpreet Kaur, Saurabh Kulshrestha, Abhitinder Kumar, Anoop Kumar, Bhupinder Kumar, Pradeep Kumar, Hui Shan Liew, Jun Sing Lim, Vuanghao Lim, Xin Wei Lim, Ramakrishna Thilagar Uma Maheswari, Neeraj Mahindroo, Rashita Makkar, Mudasir Maqbool, Prince Ahad Mir, Reyaz Hassan Mir, Roohi Mohi-ud-din, Poonam Negi, Bhupender Nehra, Sin Wi Ng, Shalini Oli, Nisha Panth, Kamla Pathak, Jeevan Patra, Keshav Raj Paudel, Parteek Prasher, Lesley Jia Wei Pua, Vivek Puri, Alan Raj, Mariappan Rajan, Lata Rani, Ritu Rathi, Syed Naeim Raza, Abdul Samad, C. Sarath Chandran, Ameya Sharma, Kushal Sharma, Madhu Sharma, Gurpreet Singh, Inderbir Singh, Manish Pal Singh, Vikram Jeet Singh, Laura Soon, K. Sourav, Manvi Suri, K.K. Swathy, Joycelin Zhu Xin Tan, Komal Thapa, Nidhi Tiwari, Raj Kumar Tiwari, Jyoti Upadhyay, Shashi Upadhyay, and Nitin Verma

Published

2023

6. Lipid-Based Vesicles: a Non-invasive Tool for Transdermal Drug Delivery

Author

Nazeera Farzana N. M., Aparna Ivon, Neethu Narayan P. P., Sarath Chandran C., Anoop Narayanan V., and Alan Raj

Subjects

Liposome, Chemistry, Vesicle, Biological property, Drug Discovery, Non invasive, Biophysics, Pharmaceutical Science, Ethanol Injection, Permeation, Transferosomes, Transdermal

Abstract

The emergence of lipid nanovesicles (LNVs), like liposomes, transferosomes, and ethosomes, strengthens transdermal drug delivery. The composition of lipid vesicles is similar to that of skin, so these can easily penetrate through the skin. Modifications in the design of lipid vesicles help enhance skin permeation; therefore, dose reduction is possible. Ultradeformable vesicles are superior to conventional lipid vesicles because of their better stability. Various methods used to prepare LNVs are the classical cold method, ethanol injection method, ether injection method, and film hydration method. The method of preparation is crucial because it drastically affects the characteristics of vesicles. The vesicles are evaluated for their physicochemical and biological properties. Since vesicular systems are more susceptible to physical, chemical, and biological degradation, their stability is critical and challenging. The transdermal applications of LNVs spread across all areas like antifungal, anti-inflammatory, and anticancer drugs and the delivery of proteins and peptides.

Published

2021

7. List of contributors

Author

Bushra Aftab, Geeta Aggarwal, Gufran Ajmal, Thomson Santosh Alex, Amit Alexander, Vimal Arora, K.R. Arya, R. Jayachandra Babu, Ujjawal Bairagi, V. Balamuralidhara, Ashish Baldi, Vindhya Basetty, Shailendra Bhatt, Rajbir Bhatti, Souvik Chakraborty, Sushma Chaturvedi, C. Sarath Chandran, Sagar Chaudhary, Sonal Chauhan, Dinesh Kumar Chellappan, Jack Deruiter, Muralikrishnan Dhanasekaran, Anju Dhiman, Kamal Dua, Harish Dureja, Uzma Farooq, Rupesh K. Gautam, Monica Gulati, Nisha Gulati, Gaurav Gupta, N. Vishal Gupta, Rishabh Gupta, Nabamita Halder, Erin Harrell, Nazia Hassan, Zeenat Iqbal, Pooja Jain, Niraj Kumar Jha, Atul Kabra, Neha Kanojia, Devesh U. Kapoor, Ramit Kapoor, Shijina Kappally, Rubiya Khursheed, Ashutosh Kumar, Deepak Kumar, Nitesh Kumar, Vijay Kumar, Joseph Lawson, Dhriti Mahajan, Pawan Kumar Maurya, Akansha Mehra, Mohd. Aamir Mirza, Brahmeshwar Mishra, Monalisa Mishra, Pooja Mittal, Sradhanjali Mohapatra, Subh Naman, Srishti Naryal, Nishitha Neethimohan, Shivani Rai Paliwal, Rishi Palliwal, Rachel Parise, Kamla Pathak, Suhrud Pathak, Satyanarayana Pondugula, A. Prabitha Priyadharshini, S. Lakshmana Prabu, Parteek Prasher, Sakshi Priya, A. Puratchikody, Ritika Puri, Abhay Raizaday, Alan Raj, Sushama Rawat, Krishnameera Sajayan, Bharti Sapra, Teenu Sara Josen, K. Trideva Sastri, M. Sharadha, Jai Bharti Sharma, Ram Babu Sharma, Vijay Sharma, Triveni Shelke, Lovedeep Singh, Mahaveer Singh, Manvi Singh, Sachin Kumar Singh, Santosh Kumar Singh, Chhavi Singla, Rajeev K. Singla, Nimisha Srivastava, K.K. Swathy, Sushma Talegaonkar, Komal Thapa, Ashok Kumar Tiwary, Anchal Tyagi, A. Umamaheswari, Mansi Upadhyay, Vishal Vats, Nitin Verma, Priyanka Verma, M. Vijayalakshmi, Sukriti Vishwas, Govind Vyas, and Foziyah Zakir

Published

2022

8. Microbiome in Chronic Obstructive Pulmonary Disease (COPD)

Author

C. Sarath Chandran, Anitha Jose Subin, Alan Raj, K. K. Swathy, and Indu Raghunath

Published

2022

9. Advanced drug delivery systems involving lysosomal storage disorders for Fabry disease

Author

C. Sarath Chandran, Alan Raj, K.K. Swathy, Krishnameera Sajayan, and Shijina Kappally

Published

2022

10. Gut-liver interaction study on an all-polydimethylsiloxane microfluidic device integrating intestinal paracellular permeability assay

Author

Ryuya Kida, Alan Rajendran, Mamiko Tsugane, Jean-Charles Duclos-Vallée, Maxime M Mahe, Sakina Bensalem, Hiroaki Suzuki, and Bruno Le Pioufle

Subjects

Microphysiological system, Co-culture, Liver-gut axis, Paracellular permeability, Bile, Analytical chemistry, QD71-142

Abstract

Microphysiological systems (MPSs) have attracted increasing attention as a method for simulating in vitro drug efficiency. In particular, the interaction between liver and intestine tissues is one of the primary targets since they are closely involved in drug absorption and metabolism. However, most of the intestine-liver MPSs reported previously require pumps, electrodes, and porous membranes for co-culture of cells and evaluation of intestinal permeability (i.e., Trans-Epithelial Electrical Resistance, TEER), requiring complex manufacturing processes and operations. In this study, we report an all-polydimethylsiloxane (PDMS) co-culture microfluidic device, connecting microchamber-based paracellular transport assay on gut microtissues to liver tissues matured on the same device. On one side of the device, HepaRG cells are confined within thin parallel grooves that induce their differentiation into hepatocytes. The other side of the device is connected with microchannels to the liver side and includes the gut tissues, organized above microchambers. Such microchambers allow the evaluation of paracellular permeability by fluorescence imaging. Thanks to the microfluidic device we investigated changes in intestinal permeability induced by differentiated hepatocyte excretion and found that Caco-2 permeability was decreased when co-culture with HepaRG. Due to its simplicity and straightforward implementation, this method is anticipated as an innovative and efficient approach to assess tissue barrier function in multi-organ on-chip experiments.

Published

2024

11. Probing the Cellular and Molecular Mechanisms Underlying in the Pathogenesis of Chronic Obstructive Pulmonary Disease

Author

Alan Raj, C. Sarath Chandran, and T. K. Shahin Muhammed

Subjects

Pathogenesis, business.industry, Immunology, Medicine, Pulmonary disease, business

Published

2021

12. Advanced drug delivery systems in prostate cancer

Author

C. Sarath Chandran, T. K. Shahin Muhammed, and Alan Raj

Subjects

Liposome, business.industry, medicine.medical_treatment, Cancer, medicine.disease, Polymeric nanoparticles, Radiation therapy, Prostate cancer, Immune system, Drug delivery, Cancer research, medicine, Hormone therapy, business

Abstract

Prostate cancer is reported mainly in men. Based on global cancer statics, it is in the second position compared with other cancers in men. Men below 65 years with mutation in BRCA-2 gene and history of urinary tract infection are more susceptible to prostate cancer. The current treatment includes surgery, radiation therapy, anticancer drugs, hormone therapy, etc. But these led the patients toward infertility. The unique properties in terms of size, surface characteristics, shape, and nanoparticle open a new wave in prostate cancer therapy. Nanoparticle carrier systems can be developed either from natural or synthetic origin. The natural compounds are frequently used for nanoparticle preparation because they are innoxious and did not produce any immune response. Nanoparticle systems that are commonly used include liposomes, polymeric nanoparticles, micelles, dendrimers, carbon-based nanoparticles, etc. The potential of nanoparticle systems provides advanced drug delivery in prostate cancer management.

Published

2021

13. Contributors

Author

Muzaffar Abbas, Nasir Abbas, Alaa A.A. Aljabali, Walhan Alshaer, Nizar A. Al-Shar’i, Krishnan Anand, Roy Anitha, Alice Ao, Vimal Arora, Vijaya Anand Arumugam, Balamuralikrishnan Balasubramanian, Ratnali Bania, Seema Bansal, Anindita Behera, Helen Benson, Sanjay Kumar Bharti, Amit Bhatia, Shvetank Bhatt, Pobitra Borah, Victoria Garcia Cardenas, Natalia Neto Pereira Cerize, Yinghan Chan, Balakumar Chandrasekaran, Nitin Bharat Charbe, Shashank Chaturvedi, Pooja A. Chawla, Viney Chawla, Dinesh Kumar Chellappan, Kiran Kumar Chereddy, Shruti Chopra, Rachelle L. Cutler, Lina A. Dahabiyeh, Rajiv Dahiya, Sunita Dahiya, Joydeep Das, Terezinha de Jesus Andreoli Pinto, Pran Kishore Deb, Satyendra Deka, Anju Dhiman, Kamal Dua, Harish Dureja, Sreenivas Enaganti, Devaraj Ezhilarasan, Valker Araujo Feitosa, Ireen Femeela, Gasper Fernandes, Lakshmi Pallavi Ganipineni, Ashish Garg, Sweta Garg, Rupesh K. Gautam, Ritu Gilhotra, Charles Gnanaraj, Manoj Goyal, Monica Gulati, Gaurav Gupta, Mehra Hagi, Khalid Hussain, Salman Hussain, Nadeem Irfan Bukhari, Gaurav Kumar Jain, Rupa Joshi, Saikrishna Kandalam, Ummarah Kanwal, Deepak N. Kapoor, Ritu Karwasra, Harpinder Kaur, Sanjay Kulkarni, Deepak Kumar, Dileep Kumar, Nitesh Kumar, Subodh Kumar, Varun Kumar, H. Lalhlenmawia, Wing-Hin Lee, Ching-Yee Loo, Debarshi Kar Mahapatra, Saniya Mahendiratta, Deepti Malik, Subha Manoharan, Pawan Kumar Maurya, Priyanka Maurya, Bikash Medhi, Akansha Mehra, Meenu Mehta, Brahmeshwar Mishra, Neeraj Mishra, Nidhi Mishra, Dhrubojyoti Mukherjee, Srinivas Mutalik, Anroop B. Nair, Mukesh Nandave, Sin Wi Ng, Xin Yi Ng, Ajinkya NIkam (Nitin), null Nimisha, Raquibun Nisha, Mohammad A. Obeid, Santwana Padhi, Bharath Singh Padya, Ajay Kumar Pal, Abhijeet Pandey, Kalpana Pandey, Chandrakantsing V. Pardeshi, Kamla Pathak, Tania Patwal, Atmaram Pawar, Anil Philip, Lisa G. Pont, Ajay Prakash, Parteek Prasher, Gopal Kumar Rai, Alan Raj, Sushma Rawat, Abida Raza, Faizan Naeem Razali, Sangita Saini, Betty Annie Samuel, Shubhini A. Saraf, Mohammad Arshad Shaikh, C. Sarath Chandran, Phulen Sarma, Saurabh Satija, T.K. Shahin Muhammed, Mousmee Sharma, Nitin Sharma, Ganesh B. Shevalkar, Priya Shrivastava, Ajay Shukla, Apoorva Singh, Juhi Singh, Lubhan Singh, Neelu Singh, Priya Singh, Sachin Kumar Singh, Samipta Singh, Santosh Kumar Singh, Vinayak Singh, Yogendra Singh, Chloe C.H. Smit, Sanjay J. Surana, Murtaza M. Tambuwala, Rakesh Kumar Tekade, Lakshmi Thangavelu, Komal Thapa, Rajiv K. Tonk, Mansi Upadhyay, Katharigatta N. Venugopala, Dhriti Verma, Nitin Verma, Kylie A. Williams, Nisha R. Yadav, Rati Yadav, and Farrukh Zeeshan

Published

2021