PharmE3D Labs Earn National and International Accolades

Signage for the UT College of Pharmacy.
July 11, 2022
Researchers in UT Pharmacy's Pharmaceutical Engineering and 3D Printing (PharmE3D) Labs have earned a bevy of national and international awards for their work in pharmaceutical drug delivery and 3D printing personalized medicines.

Celebrating the Latest Awards, Appointments and Achievements from the UT Pharmacy Community

Pharmacy building on UT campus
July 5, 2022
From student scholarships to national recognition awards to prestigious appointments, the UT Pharmacy community has a lot to celebrate and be proud of right now.

Fewer Than Half of U.S. Pharmacies Carry One of the Most Effective Drugs for Opioid Abuse

A pharmacist holding a box of medication.
June 13, 2022
Tara Law from Time writes about how few pharmacies carry buprenorphine, a life-saving drug to help treat opioid use disorder (OUD). Lucas Hill, Pharm.D., BCACP, director of the college's Pharmacy Addictions Research & Medicine (PhARM) program, offers his insight on the issue, and how the DEA's crackdown of the drug puts OUD patients at risk.

PharmE3D Labs Receive Federal Funding for 3D Printed Contraception

Four people wearing masks and lab coats.
March 14, 2022
Dr. Mo Maniruzzaman's Pharmaceutical Engineering and 3D Printing Labs have received a federal grant from the United States Agency for International Development (USAID) to develop personalized 3D printed non-hormonal intrauterine devices (IUDs). The project’s goal is to increase global access to long-term and effective contraception while minimizing some of its most debilitating side effects.

Opioid Use Disorder Paper Earns ACCP Award

A box of naloxone vials.
October 8, 2021
A paper from UT College of Pharmacy researchers was awarded the 2021 Outstanding Paper of the Year from the American College of Clinical Pharmacy (ACCP) Ambulatory Care Practice Research Network. The paper investigates the availability of buprenorphine and naloxone in Texas to treat opioid use disorder.

PharmE3D Labs Receive R01 Grant for Complex Vaccine Technologies

Three people smiling.
September 24, 2021
The College of Pharmacy’s Pharmaceutical Engineering and 3D Printing (PharmE3D) Labs recently earned a three-year $1.5 million National Institutes of Health (NIH) R01 grant to research novel manufacturing technology for complex vaccine formulations for influenza and other emerging infectious diseases.

PharmE3D Labs Earn Multiple Pharmaceutical Science Distinctions

Three men smiling.
September 10, 2021
The college's Pharmaceutical Engineering and 3D Printing (PharmE3D) labs, led by Assistant Professor in Molecular Pharmaceutics and Drug Delivery Mohammed (Mo) Maniruzzaman, Ph.D., has recently earned several national and international awards and scholarships for outstanding research contributions to the field of pharmaceutical science and technology.

Williams Talks to KXAN About How Thin Film Freezing Can Help Treat COVID Patients

A man wearing glasses.
July 30, 2021
Division Head and Professor of Molecular Pharmaceutics and Drug Delivery Dr. Bill Williams was on KXAN News to talk about promising new data from TFF Pharmaceuticals and Augmenta Bioworks. The companies plan to develop Dr. Williams' thin film freezing technology to better deliver antibody treatment directly to the lungs of COVID patients.

Fight Against Antibiotic-Resistant Bacteria Has a Glowing New Weapon

A 3D representation of the chemical probe as it bridges two zinc molecules
June 2, 2021
Chemistry Assistant Professor Emily Que, Ph.D. and the College of Pharmacy’s Walt Fast, Ph.D. are working together to research new methods to fight against antibiotic resistance. The fluorescent chemical probe developed by Que and Fast may help find a different way to combat resistant bacteria.

Maniruzzaman Lab Earns Grant to Research 3D Printed COVID-19 Treatment

A man holding up a dish in a lab.
May 26, 2021
The UT College of Pharmacy’s Pharmaceutical Engineering and 3D Printing (PharmE3D) Lab earned a Texas Global Faculty Research Seed Grant for its work on patient-specific treatment of COVID-19.