Your search keyword '"Hess, Kaitlyn"' showing total 32 results

1. Screening oral drugs for their interactions with the intestinal transportome via porcine tissue explants and machine learning

Author

Shi, Yunhua, Reker, Daniel, Byrne, James D., Kirtane, Ameya R., Hess, Kaitlyn, Wang, Zhuyi, Navamajiti, Natsuda, Young, Cameron C., Fralish, Zachary, Zhang, Zilu, Lopes, Aaron, Soares, Vance, Wainer, Jacob, von Erlach, Thomas, Miao, Lei, Langer, Robert, and Traverso, Giovanni

Published

2024

2. A multifunctional decellularized gut suture platform

Author

Lee, Jung Seung, Kim, Hyunjoon, Carroll, Gwennyth, Liu, Gary W., Kirtane, Ameya R., Hayward, Alison, Wentworth, Adam, Lopes, Aaron, Collins, Joy, Tamang, Siid, Ishida, Keiko, Hess, Kaitlyn, Li, Junwei, Zhang, Sufeng, and Traverso, Giovanni

Published

2023

3. The future is now: Implementation of standard of care, preemptive pharmacogenomic testing in patients with gastrointestinal cancers.

Author

Hearst, Emily C, primary, Martin, James L, additional, Crooks, Kristy R, additional, Greene, Casey S, additional, Hess, Kaitlyn W, additional, Johnson, Natalie, additional, Kao, David P, additional, Rafaels, Nicholas, additional, Carson, Katelyn, additional, Meguid, Cheryl L, additional, Taucher, Kate, additional, Davis, S. Lindsey, additional, Lieu, Christopher Hanyoung, additional, and Aquilante, Christina L, additional

Published

2024

4. Biodegradable ring-shaped implantable device for intravesical therapy of bladder disorders

Author

Kim, Hyunjoon, Lee, Seung Ho, Wentworth, Adam, Babaee, Sahab, Wong, Kaitlyn, Collins, Joy E., Chu, Jacqueline, Ishida, Keiko, Kuosmanen, Johannes, Jenkins, Joshua, Hess, Kaitlyn, Lopes, Aaron, Morimoto, Joshua, Wan, Qianqian, Potdar, Shaunak V., McNally, Ronan, Tov, Caitlynn, Kim, Na Yoon, Hayward, Alison, Wollin, Daniel, Langer, Robert, and Traverso, Giovanni

Published

2022

5. Development of a long-acting direct-acting antiviral system for hepatitis C virus treatment in swine

Author

Verma, Malvika, Chu, Jacqueline N., Salam, John A. F., Faiz, Mohammed T., Eweje, Feyisope, Gwynne, Declan, Lopes, Aaron, Hess, Kaitlyn, Soares, Vance, Steiger, Christoph, McManus, Rebecca, Koeppen, Ryan, Hua, Tiffany, Hayward, Alison, Collins, Joy, Tamang, Siddartha M., Ishida, Keiko, Miller, Jonathan B., Katz, Stephanie, Slocum, Alexander H., Sulkowski, Mark S., Thomas, David L., Langer, Robert, and Traverso, Giovanni

Published

2020

6. “Waste Not, Want Not” — Leveraging Sewer Systems and Wastewater-Based Epidemiology for Drug Use Trends and Pharmaceutical Monitoring

Author

Erickson, Timothy B., Endo, Noriko, Duvallet, Claire, Ghaeli, Newsha, Hess, Kaitlyn, Alm, Eric J., Matus, Mariana, and Chai, Peter R.

Published

2021

7. Kirigami-inspired stents for sustained local delivery of therapeutics

Author

Babaee, Sahab, Shi, Yichao, Abbasalizadeh, Saeed, Tamang, Siddartha, Hess, Kaitlyn, Collins, Joy E., Ishida, Keiko, Lopes, Aaron, Williams, Michael, Albaghdadi, Mazen, Hayward, Alison M., and Traverso, Giovanni

Published

2021

8. Computationally guided high-throughput design of self-assembling drug nanoparticles

Author

Reker, Daniel, Rybakova, Yulia, Kirtane, Ameya R., Cao, Ruonan, Yang, Jee Won, Navamajiti, Natsuda, Gardner, Apolonia, Zhang, Rosanna M., Esfandiary, Tina, L’Heureux, Johanna, von Erlach, Thomas, Smekalova, Elena M., Leboeuf, Dominique, Hess, Kaitlyn, Lopes, Aaron, Rogner, Jaimie, Collins, Joy, Tamang, Siddartha M., Ishida, Keiko, Chamberlain, Paul, Yun, DongSoo, Lytton-Jean, Abigail, Soule, Christian K., Cheah, Jaime H., Hayward, Alison M., Langer, Robert, and Traverso, Giovanni

Published

2021

9. Implementation of clopidogrel pharmacogenetic clinical decision support for a preemptive return of results program

Author

Aquilante, Christina L, primary, Trinkley, Katy E, additional, Lee, Yee Ming, additional, Crooks, Kristy R, additional, Hearst, Emily C, additional, Heckman, Simeon M, additional, Hess, Kaitlyn W, additional, Kudron, Elizabeth L, additional, Martin, James L, additional, Swartz, Carolyn T, additional, and Kao, David P, additional

Published

2024

10. Enzyme‐Triggered Intestine‐Specific Targeting Adhesive Platform for Universal Oral Drug Delivery (Adv. Healthcare Mater. 27/2023)

Author

Li, Ying, primary, Lee, Jung Seung, additional, Kirtane, Ameya R., additional, Li, Mengyuan, additional, Coffey, Charles William, additional, Hess, Kaitlyn, additional, Lopes, Aaron, additional, Collins, Joy, additional, Tamang, Siddartha, additional, Ishida, Keiko, additional, Hayward, Alison, additional, Wainer, Jacob, additional, Wentworth, Adam J., additional, and Traverso, Giovanni, additional

Published

2023

11. Controlled Delivery of Bile Acids to the Colon

Author

Steiger, Christoph, Phan, Nhi V., Sun, Haoying, Huang, Hen-Wei, Hess, Kaitlyn, Lopes, Aaron, Korzenik, Joshua, Langer, Robert, and Traverso, Giovanni

Published

2020

12. A machine learning liver-on-a-chip system for safer drug formulation

Author

Shi, Yunhua, primary, Lin, Chih-Hsin, additional, Reker, Daniel, additional, Steiger, Christoph, additional, Hess, Kaitlyn, additional, Collins, Joy E., additional, Tamang, Siddartha, additional, Ishida, Keiko, additional, Lopes, Aaron, additional, Wainer, Jacob, additional, Hayward, Alison M., additional, Walesky, Chad, additional, Goessling, Wolfram, additional, and Traverso, Giovanni, additional

Published

2022

13. Dig Deeper: A Case Report of Finding (and Fixing) the Root Cause of Add-On Laboratory Failures

Author

Anstett, Tyler, additional, Smith, Chris, additional, Hess, Kaitlyn, additional, Patten, Luke, additional, Pincus, Sharon, additional, Lin, Chen-Tan, additional, and Ho, P. Michael, additional

Published

2022

14. Parental Perspectives on Social Health and Family Relationships of Children With Cancer: An Exploratory Study

Author

Potter, Ann, primary, Pheiffer, Bryna, additional, Hess, Kaitlyn, additional, Rossi, Michael M., additional, and Umar, Taylor, additional

Published

2022

15. Kirigami-inspired stents for sustained local delivery of therapeutics

Author

Massachusetts Institute of Technology. Department of Mechanical Engineering, Massachusetts Institute of Technology. Department of Chemical Engineering, Koch Institute for Integrative Cancer Research at MIT, Babaee, Sahab, Shi, Yichao, Abbasalizadeh, Saeed, Tamang, Siddartha, Hess, Kaitlyn, Collins, Joy E, Ishida, Keiko, Lopes, Aaron, Williams, Michael, Albaghdadi, Mazen, Hayward, Alison M, Traverso, Giovanni, Massachusetts Institute of Technology. Department of Mechanical Engineering, Massachusetts Institute of Technology. Department of Chemical Engineering, Koch Institute for Integrative Cancer Research at MIT, Babaee, Sahab, Shi, Yichao, Abbasalizadeh, Saeed, Tamang, Siddartha, Hess, Kaitlyn, Collins, Joy E, Ishida, Keiko, Lopes, Aaron, Williams, Michael, Albaghdadi, Mazen, Hayward, Alison M, and Traverso, Giovanni

Abstract

Implantable drug depots have the capacity to locally meet therapeutic requirements by maximizing local drug efficacy and minimizing potential systemic side effects. Tubular organs including the gastrointestinal tract, respiratory tract and vasculature all manifest with endoluminal disease. The anatomic distribution of localized drug delivery for these organs using existing therapeutic modalities is limited. Application of local depots in a circumferential and extended longitudinal fashion could transform our capacity to offer effective treatment across a range of conditions. Here we report the development and application of a kirigami-based stent platform to achieve this. The stents comprise a stretchable snake-skin-inspired kirigami shell integrated with a fluidically driven linear soft actuator. They have the capacity to deposit drug depots circumferentially and longitudinally in the tubular mucosa of the gastrointestinal tract across millimetre to multi-centimetre length scales, as well as in the vasculature and large airways. We characterize the mechanics of kirigami stents for injection, and their capacity to engage tissue in a controlled manner and deposit degradable microparticles loaded with therapeutics by evaluating these systems ex vivo and in vivo in swine. We anticipate such systems could be applied for a range of endoluminal diseases by simplifying dosing regimens while maximizing drug on-target effects through the sustained release of therapeutics and minimizing systemic side effects.

Published

2022

16. Development of oil-based gels as versatile drug delivery systems for pediatric applications

Author

Kirtane, Ameya R., primary, Karavasili, Christina, additional, Wahane, Aniket, additional, Freitas, Dylan, additional, Booz, Katelyn, additional, Le, Dao Thi Hong, additional, Hua, Tiffany, additional, Scala, Stephen, additional, Lopes, Aaron, additional, Hess, Kaitlyn, additional, Collins, Joy, additional, Tamang, Siddartha, additional, Ishida, Keiko, additional, Kuosmanen, Johannes L. P., additional, Rajesh, Netra Unni, additional, Phan, Nhi V., additional, Li, Junwei, additional, Krogmann, Annlyse, additional, Lennerz, Jochen K., additional, Hayward, Alison, additional, Langer, Robert, additional, and Traverso, Giovanni, additional

Published

2022

17. Implantable system for chronotherapy

Author

Lee, Seung Ho, primary, Wan, Qianqian, additional, Wentworth, Adam, additional, Ballinger, Ian, additional, Ishida, Keiko, additional, Collins, Joy E., additional, Tamang, Siddartha, additional, Huang, Hen-Wei, additional, Li, Canchen, additional, Hess, Kaitlyn, additional, Lopes, Aaron, additional, Kirtane, Ameya R., additional, Lee, Jung Seung, additional, Lee, SeJun, additional, Chen, Wei, additional, Wong, Kaitlyn, additional, Selsing, George, additional, Kim, Hyunjoon, additional, Buckley, Stephen T., additional, Hayward, Alison, additional, Langer, Robert, additional, and Traverso, Giovanni, additional

Published

2021

18. Controlled Delivery of Bile Acids to the Colon

Author

Koch Institute for Integrative Cancer Research at MIT, Massachusetts Institute of Technology. Department of Mechanical Engineering, Steiger, Christoph, Phan, Nhi V, Sun, Haoying, Huang, Hen-Wei, Hess, Kaitlyn, Lopes, Aaron, Korzenik, Joshua, Langer, Robert, Traverso, Giovanni, Koch Institute for Integrative Cancer Research at MIT, Massachusetts Institute of Technology. Department of Mechanical Engineering, Steiger, Christoph, Phan, Nhi V, Sun, Haoying, Huang, Hen-Wei, Hess, Kaitlyn, Lopes, Aaron, Korzenik, Joshua, Langer, Robert, and Traverso, Giovanni

Abstract

INTRODUCTION: Bile acids, such as chenodeoxycholic acid, play an important role in digestion but are also involved in intestinal motility, fluid homeostasis, and humoral activity. Colonic delivery of sodium chenodeoxycholate (CDC) has demonstrated clinical efficacy in treating irritable bowel syndrome with constipation but was associated with a high frequency of abdominal pain. We hypothesized that these adverse effects were triggered by local super-physiological CDC levels caused by an unfavorable pharmacokinetic profile of the delayed release formulation. METHODS: We developed novel release matrix systems based on hydroxypropyl methylcellulose (HPMC) for sustained release of CDC. These included standard HPMC formulations as well as bi-layered formulations to account for potential delivery failures due to low colonic fluid in constipated patients. We evaluated CDC release profiles in silico (pharmacokinetic modeling), in vitro and in vivo in swine (pharmacokinetics, rectal manometry). RESULTS: For the delayed release formulation in vitro release studies demonstrated pH triggered dose dumping which was associated with giant colonic contractions in vivo. Release from the bi-layered HPMC systems provided controlled release of CDC while minimizing the frequency of giant contractions and providing enhanced exposure as compared to standard HPMC formulations in vivo. DISCUSSION: Bi-phasic CDC release could help treat constipation while mitigating abdominal pain observed in previous clinical trials. Further studies are necessary to demonstrate the therapeutic potential of these systems in humans.

Published

2021

19. “Waste Not, Want Not” — Leveraging Sewer Systems and Wastewater-Based Epidemiology for Drug Use Trends and Pharmaceutical Monitoring

Author

Massachusetts Institute of Technology. Department of Biological Engineering, Singapore-MIT Alliance in Research and Technology (SMART), Koch Institute for Integrative Cancer Research at MIT, Erickson, Timothy B., Endo, Noriko, Duvallet, Claire, Ghaeli, Newsha, Hess, Kaitlyn, Alm, Eric J, Matus, Mariana, Chai, Peter R., Massachusetts Institute of Technology. Department of Biological Engineering, Singapore-MIT Alliance in Research and Technology (SMART), Koch Institute for Integrative Cancer Research at MIT, Erickson, Timothy B., Endo, Noriko, Duvallet, Claire, Ghaeli, Newsha, Hess, Kaitlyn, Alm, Eric J, Matus, Mariana, and Chai, Peter R.

Abstract

During the current global COVID-19 pandemic and opioid epidemic, wastewater-based epidemiology (WBE) has emerged as a powerful tool for monitoring public health trends by analysis of biomarkers including drugs, chemicals, and pathogens. Wastewater surveillance downstream at wastewater treatment plants provides large-scale population and regional-scale aggregation while upstream surveillance monitors locations at the neighborhood level with more precise geographic analysis. WBE can provide insights into dynamic drug consumption trends as well as environmental and toxicological contaminants. Applications of WBE include monitoring policy changes with cannabinoid legalization, tracking emerging illicit drugs, and early warning systems for potent fentanyl analogues along with the resurging wave of stimulants (e.g., methamphetamine, cocaine). Beyond drug consumption, WBE can also be used to monitor pharmaceuticals and their metabolites, including antidepressants and antipsychotics. In this manuscript, we describe the basic tenets and techniques of WBE, review its current application among drugs of abuse, and propose methods to scale and develop both monitoring and early warning systems with respect to measurement of illicit drugs and pharmaceuticals. We propose new frontiers in toxicological research with wastewater surveillance including assessment of medication assisted treatment of opioid use disorder (e.g., buprenorphine, methadone) in the context of other social burdens like COVID-19 disease., NIH (Grant R44 DA051106-01)

Published

2021

20. Machine Learning Uncovers Food- and Excipient-Drug Interactions

Author

Koch Institute for Integrative Cancer Research at MIT, MIT-IBM Watson AI Lab, Massachusetts Institute of Technology. Department of Mechanical Engineering, Reker, Daniel, Shi, Yunhua, Kirtane, Ameya R, Hess, Kaitlyn, Zhong, Grace J, Crane, Evan, Lin, Chih-Hsin, Langer, Robert, Traverso, Giovanni, Koch Institute for Integrative Cancer Research at MIT, MIT-IBM Watson AI Lab, Massachusetts Institute of Technology. Department of Mechanical Engineering, Reker, Daniel, Shi, Yunhua, Kirtane, Ameya R, Hess, Kaitlyn, Zhong, Grace J, Crane, Evan, Lin, Chih-Hsin, Langer, Robert, and Traverso, Giovanni

Abstract

Inactive ingredients and generally recognized as safe compounds are regarded by the US Food and Drug Administration (FDA) as benign for human consumption within specified dose ranges, but a growing body of research has revealed that many inactive ingredients might have unknown biological effects at these concentrations and might alter treatment outcomes. To speed up such discoveries, we apply state-of-the-art machine learning to delineate currently unknown biological effects of inactive ingredients—focusing on P-glycoprotein (P-gp) and uridine diphosphate-glucuronosyltransferase-2B7 (UGT2B7), two proteins that impact the pharmacokinetics of approximately 20% of FDA-approved drugs. Our platform identifies vitamin A palmitate and abietic acid as inhibitors of P-gp and UGT2B7, respectively; in silico, in vitro, ex vivo, and in vivo validations support these interactions. Our predictive framework can elucidate biological effects of commonly consumed chemical matter with implications on food- and excipient-drug interactions and functional drug formulation development.

Published

2021

21. Temperature-responsive biometamaterials for gastrointestinal applications

Author

Massachusetts Institute of Technology. Department of Chemical Engineering, Massachusetts Institute of Technology. Institute for Medical Engineering & Science, Massachusetts Institute of Technology. Division of Comparative Medicine, Massachusetts Institute of Technology. Department of Mechanical Engineering, Koch Institute for Integrative Cancer Research at MIT, Babaee, Sahab, Pajovic, Simo, Kirtane, Ameya, Shi, Jiuyun, Caffarel Salvador, Ester, Hess, Kaitlyn, Collins, Joy E, Tamang, Siddartha M, Wahane, Aniket Vijay, Hayward, Alison M, Mazdiyasni, Hormoz, Langer, Robert S, Traverso, Carlo Giovanni, Massachusetts Institute of Technology. Department of Chemical Engineering, Massachusetts Institute of Technology. Institute for Medical Engineering & Science, Massachusetts Institute of Technology. Division of Comparative Medicine, Massachusetts Institute of Technology. Department of Mechanical Engineering, Koch Institute for Integrative Cancer Research at MIT, Babaee, Sahab, Pajovic, Simo, Kirtane, Ameya, Shi, Jiuyun, Caffarel Salvador, Ester, Hess, Kaitlyn, Collins, Joy E, Tamang, Siddartha M, Wahane, Aniket Vijay, Hayward, Alison M, Mazdiyasni, Hormoz, Langer, Robert S, and Traverso, Carlo Giovanni

Abstract

We hypothesized that ingested warm fluids could act as triggers for biomedical devices. We investigated heat dissipation throughout the upper gastrointestinal (GI) tract by administering warm (55°C) water to pigs and identified two zones in which thermal actuation could be applied: esophageal (actuation through warm water ingestion) and extra-esophageal (protected from ingestion of warm liquids and actuatable by endoscopically administered warm fluids). Inspired by a blooming flower, we developed a capsule-sized esophageal system that deploys using elastomeric elements and then recovers its original shape in response to thermal triggering of shape-memory nitinol springs by ingestion of warm water. Degradable millineedles incorporated into the system could deliver model molecules to the esophagus. For the extra-esophageal compartment, we developed a highly flexible macrostructure (mechanical metamaterial) that deforms into a cylindrical shape to safely pass through the esophagus and deploys into a fenestrated spherical shape in the stomach, capable of residing safely in the gastric cavity for weeks. The macrostructure uses thermoresponsive elements that dissociate when triggered with the endoscopic application of warm (55°C) water, allowing safe passage of the components through the GI tract. Our gastric-resident platform acts as a gram-level long-lasting drug delivery dosage form, releasing small-molecule drugs for 2 weeks. We anticipate that temperature-triggered systems could usher the development of the next generation of stents, drug delivery, and sensing systems housed in the GI tract., Bill and Melinda Gates Foundation (Grants OPP1139921 and OPP1139937), NIH (Grant EB000244)

Published

2021

22. Development of a long-acting direct-acting antiviral system for hepatitis C virus treatment in swine

Author

Massachusetts Institute of Technology. Department of Biological Engineering, Massachusetts Institute of Technology. Tata Center for Technology and Design, Massachusetts Institute of Technology. Department of Chemical Engineering, Massachusetts Institute of Technology. Division of Comparative Medicine, Sloan School of Management, Massachusetts Institute of Technology. Department of Mechanical Engineering, Koch Institute for Integrative Cancer Research at MIT, Verma, Malvika, Chu, Jacqueline N, Salama, John Ashraf Fou, Faiz, Mohammed T., Eweje, Feyisope, Gwynne, Declan A, Lopes, Aaron C, Hess, Kaitlyn, Soares, Vance, Steiger, Christoph Winfried Johannes, McManus, Rebecca S, Koeppen, Ryan P., Hua, Tiffany P, Hayward, Alison M, Collins, Joy E, Tamang, Siddartha M, Ishida, Keiko, Miller, Jonathan B., Katz, Stephanie, Slocum, Alexander H, Sulkowski, Mark S., Thomas, David L., Langer, Robert S, Traverso, Carlo Giovanni, Massachusetts Institute of Technology. Department of Biological Engineering, Massachusetts Institute of Technology. Tata Center for Technology and Design, Massachusetts Institute of Technology. Department of Chemical Engineering, Massachusetts Institute of Technology. Division of Comparative Medicine, Sloan School of Management, Massachusetts Institute of Technology. Department of Mechanical Engineering, Koch Institute for Integrative Cancer Research at MIT, Verma, Malvika, Chu, Jacqueline N, Salama, John Ashraf Fou, Faiz, Mohammed T., Eweje, Feyisope, Gwynne, Declan A, Lopes, Aaron C, Hess, Kaitlyn, Soares, Vance, Steiger, Christoph Winfried Johannes, McManus, Rebecca S, Koeppen, Ryan P., Hua, Tiffany P, Hayward, Alison M, Collins, Joy E, Tamang, Siddartha M, Ishida, Keiko, Miller, Jonathan B., Katz, Stephanie, Slocum, Alexander H, Sulkowski, Mark S., Thomas, David L., Langer, Robert S, and Traverso, Carlo Giovanni

Abstract

Chronic hepatitis C virus (HCV) infection is a leading cause of cirrhosis worldwide and kills more Americans than 59 other infections, including HIV and tuberculosis, combined. While direct-acting antiviral (DAA) treatments are effective, limited uptake of therapy, particularly in high-risk groups, remains a substantial barrier to eliminating HCV. We developed a long-acting DAA system (LA-DAAS) capable of prolonged dosing and explored its cost-effectiveness. We designed a retrievable coil-shaped LA-DAAS compatible with nasogastric tube administration and the capacity to encapsulate and release gram levels of drugs while resident in the stomach. We formulated DAAs in drug-polymer pills and studied the release kinetics for 1 mo in vitro and in vivo in a swine model. The LA-DAAS was equipped with ethanol and temperature sensors linked via Bluetooth to a phone application to provide patient engagement. We then performed a cost-effectiveness analysis comparing LA-DAAS to DAA alone in various patient groups, including people who inject drugs. Tunable release kinetics of DAAs was enabled for 1 mo with drug-polymer pills in vitro, and the LA-DAAS safely and successfully provided at least month-long release of sofosbuvir in vivo. Temperature and alcohol sensors could interface with external sources for at least 1 mo. The LA-DAAS was cost-effective compared to DAA therapy alone in all groups considered (base case incremental cost-effectiveness ratio $39,800). We believe that the LA-DAA system can provide a cost-effective and patient-centric method for HCV treatment, including in high-risk populations who are currently undertreated., NIH (Grants EB000244 and 5T32DK007191-45)

Published

2020

23. Gastrointestinal synthetic epithelial linings

Author

Massachusetts Institute of Technology. Department of Chemical Engineering, Massachusetts Institute of Technology. Division of Comparative Medicine, Massachusetts Institute of Technology. Department of Mechanical Engineering, Koch Institute for Integrative Cancer Research at MIT, LI, Junwei, Wang, Thomas, Shi, Yunhua, Jones, Alexis, Moussa, Zaina, Lopes, Aaron, Collins, Joy, Tamang, Siddartha M, Hess, Kaitlyn, Shakur, Rameen, Karandikar, Paramesh v, Lee, Jung Seung, Huang, Hen-Wei, Hayward, Alison M, Traverso, Carlo Giovanni, Massachusetts Institute of Technology. Department of Chemical Engineering, Massachusetts Institute of Technology. Division of Comparative Medicine, Massachusetts Institute of Technology. Department of Mechanical Engineering, Koch Institute for Integrative Cancer Research at MIT, LI, Junwei, Wang, Thomas, Shi, Yunhua, Jones, Alexis, Moussa, Zaina, Lopes, Aaron, Collins, Joy, Tamang, Siddartha M, Hess, Kaitlyn, Shakur, Rameen, Karandikar, Paramesh v, Lee, Jung Seung, Huang, Hen-Wei, Hayward, Alison M, and Traverso, Carlo Giovanni

Abstract

Epithelial tissuesline the organs of the body, providing an initial protective barrieras well as a surface for nutrient and drug absorption. Here we identifiedenzymatic components present in the gastrointestinal epithelium that canserve as selective means for tissue-directed polymerization. We focusedon the small intestine, given its role in drug and nutrient absorption, and identified catalase as an essential enzyme with the potential to catalyze polymerization and growth of synthetic biomaterial layers. We demonstrated that the olymerization of dopamine by catalase yieldsstrong tissueadhesion. We characterizedthe mechanism and specificity of the polymerization in segments of the gastrointestinal tracts of pigs and human sex vivo. Moreover, we demonstrated proof-of-concept for application of these gastrointestinal synthetic epithelial linings(GSELs)for drug delivery, enzymatic immobilizationfor digestive supplementation, and nutritional modulation through transient barrier formationin pigs.This catalase-based approach to insitu biomaterial generationmay have broad indicationsfor gastrointestinal applications.

Published

2020

24. Gastrointestinal synthetic epithelial linings

Author

Li, Junwei, primary, Wang, Thomas, additional, Kirtane, Ameya R., additional, Shi, Yunhua, additional, Jones, Alexis, additional, Moussa, Zaina, additional, Lopes, Aaron, additional, Collins, Joy, additional, Tamang, Siddartha M., additional, Hess, Kaitlyn, additional, Shakur, Rameen, additional, Karandikar, Paramesh, additional, Lee, Jung Seung, additional, Huang, Hen-Wei, additional, Hayward, Alison, additional, and Traverso, Giovanni, additional

Published

2020

25. Sa1527 DEVELOPMENT OF A LONG-ACTING DIRECT-ACTING ANTIVIRAL SYSTEM FOR HEPATITIS C VIRUS TREATMENT IN A SWINE MODEL

Author

Verma, Malvika, primary, Chu, Jacqueline N., additional, Salama, John A., additional, Faiz, Mohammed T., additional, Gwynne, Feyisope Ew Declan, additional, Lopes, Aaron, additional, Hess, Kaitlyn, additional, Soares, Vance, additional, Steiger, Christoph, additional, McManus, Rebecca, additional, Koeppen, Ryan, additional, Hua, Tiffany, additional, Hayward, Alison, additional, Collins, Joy E., additional, Tamang, Siddartha, additional, Ishida, Keiko, additional, Miller, Jonathan B., additional, Katz, Stephanie, additional, Slocum, Alexander H., additional, Sulkowski, Mark, additional, Thomas, David L., additional, Langer, Robert, additional, and Traverso, Giovanni, additional

Published

2020

26. Machine Learning Uncovers Food- and Excipient-Drug Interactions

Author

Reker, Daniel, primary, Shi, Yunhua, additional, Kirtane, Ameya R., additional, Hess, Kaitlyn, additional, Zhong, Grace J., additional, Crane, Evan, additional, Lin, Chih-Hsin, additional, Langer, Robert, additional, and Traverso, Giovanni, additional

Published

2020

27. A gastric resident drug delivery system for prolonged gram-level dosing of tuberculosis treatment

Author

Verma, Malvika, Vishwanath, Karan, Eweje, Feyisope, Roxhed, Niclas, Grant, Tyler, Castaneda, Macy, Steiger, Christoph, Mazdiyasni, Hormoz, Bensel, Taylor, Minahan, Daniel, Soares, Vance, Salama, John A. F., Lopes, Aaron, Hess, Kaitlyn, Cleveland, Cody, Fulop, Daniel J., Hayward, Alison, Collins, Joy, Tamang, Siddartha M., Hua, Tiffany, Ikeanyi, Chinonyelum, Zeidman, Gal, Mule, Elizabeth, Boominathan, Sooraj, Popova, Ellena, Miller, Jonathan B., Bellinger, Andrew M., Collins, David, Leibowitz, Dalia, Batra, Shelly, Ahuja, Sandeep, Bajiya, Manju, Batra, Sonali, Sarin, Rohit, Agarwal, Upasna, Khaparde, Sunil D., Gupta, Neeraj K., Gupta, Deepak, Bhatnagar, Anuj K., Chopra, Kamal K., Sharma, Nandini, Khanna, Ashwani, Chowdhury, Jayeeta, Stoner, Robert, Slocum, Alexander H., Cima, Michael J., Furin, Jennifer, Langer, Robert, Traverso, Giovanni, Verma, Malvika, Vishwanath, Karan, Eweje, Feyisope, Roxhed, Niclas, Grant, Tyler, Castaneda, Macy, Steiger, Christoph, Mazdiyasni, Hormoz, Bensel, Taylor, Minahan, Daniel, Soares, Vance, Salama, John A. F., Lopes, Aaron, Hess, Kaitlyn, Cleveland, Cody, Fulop, Daniel J., Hayward, Alison, Collins, Joy, Tamang, Siddartha M., Hua, Tiffany, Ikeanyi, Chinonyelum, Zeidman, Gal, Mule, Elizabeth, Boominathan, Sooraj, Popova, Ellena, Miller, Jonathan B., Bellinger, Andrew M., Collins, David, Leibowitz, Dalia, Batra, Shelly, Ahuja, Sandeep, Bajiya, Manju, Batra, Sonali, Sarin, Rohit, Agarwal, Upasna, Khaparde, Sunil D., Gupta, Neeraj K., Gupta, Deepak, Bhatnagar, Anuj K., Chopra, Kamal K., Sharma, Nandini, Khanna, Ashwani, Chowdhury, Jayeeta, Stoner, Robert, Slocum, Alexander H., Cima, Michael J., Furin, Jennifer, Langer, Robert, and Traverso, Giovanni

Abstract

Multigram drug depot systems for extended drug release could transform our capacity to effectively treat patients across a myriad of diseases. For example, tuberculosis (TB) requires multimonth courses of daily multigram doses for treatment. To address the challenge of prolonged dosing for regimens requiring multigram drug dosing, we developed a gastric resident system delivered through the nasogastric route that was capable of safely encapsulating and releasing grams of antibiotics over a period of weeks. Initial preclinical safety and drug release were demonstrated in a swine model with a panel of TB antibiotics. We anticipate multiple applications in the field of infectious diseases, as well as for other indications where multigram depots could impart meaningful benefits to patients, helping maximize adherence to their medication., QC 20190509

Published

2019

28. Computationally guided high-throughput design of self-assembling drug nanoparticles

Author

Reker, Daniel, primary, Rybakova, Yulia, additional, Kirtane, Ameya R., additional, Cao, Ruonan, additional, Yang, Jee Won, additional, Navamajiti, Natsuda, additional, Gardner, Apolonia, additional, Zhang, Rosanna M., additional, Esfandiary, Tina, additional, L’Heureux, Johanna, additional, von Erlach, Thomas, additional, Smekalova, Elena M., additional, Leboeuf, Dominique, additional, Hess, Kaitlyn, additional, Lopes, Aaron, additional, Rogner, Jaimie, additional, Collins, Joy, additional, Tamang, Siddartha M., additional, Ishida, Keiko, additional, Chamberlain, Paul, additional, Yun, DongSoo, additional, Lytoon-Jean, Abigail, additional, Soule, Christian K., additional, Cheah, Jaime H., additional, Hayward, Alison M., additional, Langer, Robert, additional, and Traverso, Giovanni, additional

Published

2019

29. Temperature-responsive biometamaterials for gastrointestinal applications

Author

Babaee, Sahab, primary, Pajovic, Simo, additional, Kirtane, Ameya R., additional, Shi, Jiuyun, additional, Caffarel-Salvador, Ester, additional, Hess, Kaitlyn, additional, Collins, Joy E., additional, Tamang, Siddartha, additional, Wahane, Aniket V., additional, Hayward, Alison M., additional, Mazdiyasni, Hormoz, additional, Langer, Robert, additional, and Traverso, Giovanni, additional

Published

2019

30. A gastric resident drug delivery system for prolonged gram-level dosing of tuberculosis treatment

Author

Verma, Malvika, primary, Vishwanath, Karan, additional, Eweje, Feyisope, additional, Roxhed, Niclas, additional, Grant, Tyler, additional, Castaneda, Macy, additional, Steiger, Christoph, additional, Mazdiyasni, Hormoz, additional, Bensel, Taylor, additional, Minahan, Daniel, additional, Soares, Vance, additional, Salama, John A. F., additional, Lopes, Aaron, additional, Hess, Kaitlyn, additional, Cleveland, Cody, additional, Fulop, Daniel J., additional, Hayward, Alison, additional, Collins, Joy, additional, Tamang, Siddartha M., additional, Hua, Tiffany, additional, Ikeanyi, Chinonyelum, additional, Zeidman, Gal, additional, Mule, Elizabeth, additional, Boominathan, Sooraj, additional, Popova, Ellena, additional, Miller, Jonathan B., additional, Bellinger, Andrew M., additional, Collins, David, additional, Leibowitz, Dalia, additional, Batra, Shelly, additional, Ahuja, Sandeep, additional, Bajiya, Manju, additional, Batra, Sonali, additional, Sarin, Rohit, additional, Agarwal, Upasna, additional, Khaparde, Sunil D., additional, Gupta, Neeraj K., additional, Gupta, Deepak, additional, Bhatnagar, Anuj K., additional, Chopra, Kamal K., additional, Sharma, Nandini, additional, Khanna, Ashwani, additional, Chowdhury, Jayeeta, additional, Stoner, Robert, additional, Slocum, Alexander H., additional, Cima, Michael J., additional, Furin, Jennifer, additional, Langer, Robert, additional, and Traverso, Giovanni, additional

Published

2019

31. Development of a POC Test for TB Based on Multiple Immunodominant Epitopes of M. tuberculosis Specific Cell-Wall Proteins

Author

Gonzalez, Jesus M., primary, Francis, Bryan, additional, Burda, Sherri, additional, Hess, Kaitlyn, additional, Behera, Digamber, additional, Gupta, Dheeraj, additional, Agarwal, Ashutosh Nath, additional, Verma, Indu, additional, Verma, Ajoy, additional, Myneedu, Vithal Prasad, additional, Niedbala, Sam, additional, and Laal, Suman, additional

Published

2014

32. Implantable system for chronotherapy.

Author

Seung Ho Lee, Qianqian Wan, Wentworth, Adam, Ballinger, Ian, Ishida, Keiko, Collins, Joy E., Tamang, Siddartha, Hen-Wei Huang, Canchen Li, Hess, Kaitlyn, Lopes, Aaron, Kirtane, Ameya R., Jung Seung Lee, SeJun Lee, Wei Chen, Wong, Kaitlyn, Selsing, George, Hyunjoon Kim, Buckley, Stephen T., and Hayward, Alison

Subjects

*BROMOCRIPTINE, *CLINICAL chronobiology, *NON-alcoholic fatty liver disease, *MYOCARDIAL infarction, *TRANSDERMAL medication, *SOMATOMEDIN C

Abstract

The article presents a study that explores implantable system for chronotherapy. It mentions the development of a battery-free, refillable, subcutaneous, and trocar-compatible implantable system that facilitates chronotherapy by enabling tight control over the timing of drug administration in response to external mechanical actuation.

Published

2021