May
3
Fri
13th Annual Nano-Bio Symposium @ Johns Hopkins Homewood campus, Glass Pavilion and Arellano Theater
May 3 @ 8:30 am – 4:30 pm
13th Annual Nano-Bio Symposium @ Johns Hopkins Homewood campus, Glass Pavilion and Arellano Theater

The Annual Nano-Bio Symposium is our signature event to showcase and celebrate the latest discoveries in nanoscience from our multidisciplinary researcher teams. It brings students and top scholars from Hopkins, other institutions, and industry together to network, share knowledge and ideas, and foster new collaborations.

The theme for the 2019 Nano-Bio Symposium is Translation of Nano & Bio Research.

Jun
13
Thu
Summer Seminar Series – Gregory Carr @ Shaffer Hall 300, JHU Homewood Campus
Jun 13 @ 12:00 pm – 1:00 pm
Summer Seminar Series - Gregory Carr @ Shaffer Hall 300, JHU Homewood Campus

Cognitive impairment is a core feature of many psychiatric and neurological disorders. Currently available therapies do not significantly improve cognitive impairment. Dopaminergic neurotransmission in the prefrontal cortex is important for the regulation of cognitive function and therapeutic interventions that modulate dopaminergic function in the cortex could improve cognition. The enzyme catechol-O-methyltransferase (COMT) is a key regulator of dopaminergic tone in the cortex and hippocampus and individual variability in COMT function is associated with differences in cognitive function. Tolcapone, a COMT inhibitor, has been approved as a treatment for the motor symptoms of Parkinson’s disease but it has multiple features that prevent its widespread use as a cognitive enhancer including poor pharmacokinetics (PK) that require 3X/day dosing in patients and a black box warning for potentially fatal liver toxicity. Carr’s team developed non-nitrocatechol, COMT inhibitors with improved PK and safety profiles compared to tolcapone. They will describe multiple novel compounds with promising preclinical in vivo profiles that may be suitable for clinical trials testing their cognitive enhancement capabilities.

The Summer Seminar Series is co-sponsored by INBT and the Physical Sciences-Oncology Center.

Jun
17
Mon
Summer Seminar Series – Jamie Spangler @ Johns Hopkins School of Medicine, Traylor Building, Room 709 (Talbot Library)
Jun 17 @ 12:00 pm – 1:00 pm
Summer Seminar Series - Jamie Spangler @ Johns Hopkins School of Medicine, Traylor Building, Room 709 (Talbot Library)

The repertoire of naturally occurring proteins is limited and many molecules induce multiple conflicting effects. Protein engineering affords researchers the unprecedented capacity to create new molecules with novel and therapeutically useful activities. Researchers have traditionally taken an unbiased approach to protein engineering, but as our knowledge of protein structure-function relationships advances, we have the exciting opportunity to apply molecular principles to guide engineering. Leveraging cutting-edge tools and exclusive expertise in structural biology and molecular design, the Spangler Lab implements a unique structure-based engineering approach to elucidate the determinants of protein activity and inform drug development. Building on molecular insights, our group aims to redesign existing proteins and engineer new proteins to serve as targeted therapeutics to treat immune diseases such as cancer, infectious diseases, and autoimmune disorders.

The Summer Seminar Series is co-sponsored by INBT and the Physical Sciences-Oncology Center.

Jun
26
Wed
Summer Seminar Series – Michael Tsapatsis @ Shaffer Hall, Room 2, JHU Homewood Campus
Jun 26 @ 12:00 pm – 1:00 pm
Summer Seminar Series - Michael Tsapatsis @ Shaffer Hall, Room 2, JHU Homewood Campus

Zeolites are microporous framework silicates that are used widely in the chemical industry as heterogeneous acid catalysts, efficient ion exchangers, selective adsorbents for gas separations and as perm-selective dehydration membranes. They are also useful in other applications like water softening, as desiccants, and for adsorptive/catalytic treatment of automotive emissions. Zeolites have a wide range of compositions, and Dr. Tsapatsis’ will focus his talk on pure silica zeolites (zeosils) and high silica zeolites, i.e., zeolites with large ratio of silicon to substituents like Al, B, Ge, Sn, Ti that isomorphously replace silicon in the tetrahedral sites of the zeolite framework.

Michael Tsapatsis’ research group and collaborators have devoted more than two decades to study zeolite nucleation and crystal growth in efforts to create (i) nanometer-thin, oriented, and pinhole-free separation membranes, and (ii) hierarchical porous adsorbents and catalysts.

The Summer Seminar Series is co-sponsored by INBT and the Physical Sciences-Oncology Center

Jul
1
Mon
Summer Seminar Series – Christopher Jewell @ Shaffer Hall, Room 2, JHU Homewood Campus
Jul 1 @ 3:00 pm – 4:00 pm
Summer Seminar Series - Christopher Jewell @ Shaffer Hall, Room 2, JHU Homewood Campus

Jewell’s research combines immunology and biomaterials to understand the interactions between synthetic materials and immune tissues, and to design more selective therapeutic vaccines for cancer and autoimmunity.

Jewell will discuss new degradable polymer depots that could improve the selectivity of therapies for autoimmune diseases such as multiple sclerosis and diabetes by locally reprogramming the function of lymph nodes – tissues that coordinate immune function.  Jewell will also discuss self-assemble immune signals into modular nanostructures.

The Summer Seminar Series is co-sponsored by INBT and the Physical Sciences-Oncology Center.

Jul
15
Mon
Summer Seminar Series – Warren Grayson @ Shaffer Hall, Room 2, JHU Homewood Campus
Jul 15 @ 12:00 pm – 1:00 pm
Summer Seminar Series - Warren Grayson @ Shaffer Hall, Room 2, JHU Homewood Campus

Traveling the Long Road to Clinical Translation of Tissue Engineered Bone Grafts

Treating large craniofacial bone loss due to congenital defects, trauma, or cancer resection remains a huge clinical challenge. Approximately 200,000 fractures require bone transplantation annually in the US at the cost of $2B. Tissue engineering, where the patient’s own cells are combined with porous scaffolds to guide their development into new bone tissue, provides a viable means of obtaining ‘autologous’ bone grafts for the treatment of large bone defects. Successfully applying tissue-engineered grafts, however, requires overcoming key scientific, regulatory, and practical hurdles. To address these, Warren Grayson’s lab has focused on the development of a point-of-care stem cell-biomaterial based strategy for treating massive craniomaxillofacial bone loss.

In his talk, Warren Grayson will outline novel technologies and strategies they are developing to advance the bone tissue engineering field with consideration for the regulatory and practical concerns. He will also describe ongoing studies intended to move us closer to realizing human clinical trials.

Learning Goals:

1.    Bone tissue engineering strategies.
2.    Differentiation potential of adipose-derived stem/stromal cells.
3.    Promise and limitations of 3D-printing strategies.
4.    Pre-clinical animal models of bone regeneration.

The Summer Seminar Series is co-sponsored by INBT and the Physical Sciences-Oncology Center.

Jul
25
Thu
Johns Hopkins C.A.R.E.S. Symposium @ Johns Hopkins Medicine, Armstrong Medical Education Building
Jul 25 @ 10:00 am – 4:00 pm
Johns Hopkins C.A.R.E.S. Symposium @ Johns Hopkins Medicine, Armstrong Medical Education Building

Johns Hopkins Career, Academic, and Research Experiences for Students (CARES) Summer Symposium was launched in 2014 through the collaboration of 10 summer programs. This annual symposium brings together graduate, undergraduate and high school students who have participated in one of the Johns Hopkins CARES summer programs to showcase diverse STEM talent.

We welcome you to come to the event and see all the hard work done by our Nanotechnology for Biology and Bioengineering Research Experience for Undergraduates (REU) program interns. Learn more about our REU program.

Aug
1
Thu
Summer Seminar Series: David Sebba @ Shaffer Hall, Room 202, JHU Homewood Campus
Aug 1 @ 12:00 pm – 1:00 pm
Summer Seminar Series: David Sebba @ Shaffer Hall, Room 202, JHU Homewood Campus

We are pleased to welcome our last guest speaker in our Summer Seminar Series, David Sebba, PhD from BD. David Sebba will be presenting, “Developing a Career in Industry.”

Dave Sebba is an Associate Principal Scientist, R&D Innovation at BD’s Diagnostic Systems business. Dave partners with Business Development, R&D, and business leaders to identify and assess new technologies and business opportunities and set strategic priorities.

Dave joined BD in 2012 where he had roles ranging from Staff Scientist to Senior R&D Manager. As Senior R&D Manager, Dave led teams focused on developing technologies in the microbiology, immunoassay, and clinical chemistry spaces, often working closely with key external collaborators and clinical sites to demonstrate technology performance in the field.

Prior to joining BD, Dave worked as a Program Manager / Senior Scientist at nanoComposix (San Diego, CA), a rapidly growing startup company, where he developed IVD products and OEM materials for the pharmaceutical, electronics, and cosmetics industries. He holds a PhD in materials science from Duke University and a BS in chemical engineering from Johns Hopkins University.

Sep
11
Wed
Biomedical Engineering Distinguished Lecturer: Sharon Gerecht @ JHU Homewood campus, Clark Hall 110
Sep 11 @ 4:00 pm – 5:00 pm
Biomedical Engineering Distinguished Lecturer: Sharon Gerecht @ JHU Homewood campus, Clark Hall 110

The Johns Hopkins Biomedical Engineering Department is hosting a seminar with INBT’s director, Sharon Gerecht, as guest speaker. Dr. Gerecht will be discussing, “Guiding 3D Vascular Fate and Assembly.”

Abstract: Vascular differentiation and formation (morphogenesis) takes place in an intricate milieu. This unique microenvironment is situated throughout the body in diverse types of healthy tissues, yet it seems to activates/inhibits similar mechanisms of the microvasculature. Two parameters of this microenvironment seem critical for blood vessel growth and stabilization: (i) the extracellular matrix, which provides critical support for vascular cell adhesion, proliferation, migration, and morphogenesis, and (ii) low oxygen concentrations (hypoxia), which is a critical factor promoting vascularization during embryonic development and tumor growth. In this talk I will present our recent efforts to understand how these physicochemical cues and downstream signaling pathways impact vascular fate and assembly from progenitors and pluripotent stem cells.

Location: Johns Hopkins Homewood campus, Clark Hall 110. Overflow will be in Kavli 316.

Reception to follow, Clark Hall first floor lobby.

 

Sep
24
Tue
Women in Cancer Research Fall Mini Seminar Series: Sarah Amend @ Croft Hall G40, JHU Homewood campus
Sep 24 @ 2:00 pm – 3:00 pm
Women in Cancer Research Fall Mini Seminar Series: Sarah Amend @ Croft Hall G40, JHU Homewood campus

“Ecology Meets Cancer Biology: Keystone Cancer Cells are Actuators of Therapy Resistance and Cancer Lethality.”

Using cancer ecology to solve the problem of metastasis, Amend’s research is focused on understanding the role of the tumor microenvironment in cancer progression, specifically related to lethal metastasis.

Sarah Amend is an Assistant Professor, partnering with Dr. Ken Pienta to study the ecology of cancer.  She was a post-doctoral fellow in the lab and received her undergraduate degree from N.C. State University in Biological Sciences and did her Ph.D. thesis work on contributions of the microenvironment to bone resident cancer at Washington University in St. Louis. She is studying the role of the malignant cancer niche in inducing cancer cell biodiversity.