Wednesday, May 24, 2017
A recent scientific study shows that insufficient amount of sleep leads to the development of Alzheimer's disease. Researchers gain more evidence and are beginning to believe that lack and poor quality of sleep results to the fusion of Amyloids, proteins that bond together to form Alzheimer's plaques.
Dr. Maiken Nedergaard, the lead researcher from the University of Rochester Medical Center, explains the glymphatic system that is present in humans. She says that this system is 10 times more active when in slumber than when awake. The process allows cerebrospinal fluid to flow through spaces around the neurons of people's brains. This a method of purging unwanted proteins (Amyloids) and other wastes into the circulatory system garbage collectors and eventually flushes it out of the body.
In simple terms, Nedergaard explains that the brain has its own sanitation and public works department. It is like a network of sewer facilities mostly done during the brain's nightlife. An example of a housekeeping staff descending to building offices for a cleanup duty to avoid the lumping compound that causes Alzheimer's.Read More: Featured in The Science Times: How Alzheimer's Catches People Skimping Sleep: New Study Explains Cause Of Dementia
Lowery Receives Vincent du Vigneaud Award at Commencement 2017
Wednesday, May 24, 2017
Rebecca Lowery and Edith Lord
Ania Majewska Speaking about Rebecca Lowery
Rebecca Lowery, Ph.D., a graduate of the laboratory of Dr. Ania Majewska, received the Vincent du Vigneaud Award at Commencement 2017 for her thesis titled “The Role of Microglia and Fractalkine Signaling in Experience-dependent Synaptic Plasticity”.
This award is conferred by the Office of Graduate Education at the School of Medicine and Dentistry to a graduating student from any program whose thesis is judged superior and unique in potential for stimulating and extending research in the field. The award is given in honor of Vincent du Vigneaud, (1901-1978) who received his Ph.D. in Biochemistry (formerly known as Vital Economics) in 1927 at the University of Rochester School of Medicine and Dentistry, studying on the sulfur component of insulin.
Keshov Sharma Presents Late-Breaking Data at Society for Biological Psychiatry in San Diego
Monday, May 22, 2017
Keshov Sharma, a second-year student in the Medical Scientist Training Program (MSTP), presented work collected in part during his laboratory last summer at the SOBP Annual meeting in May. The study, “Dual Neural Connections between the Amygdala and the Ventromedial (BA25) and Dorsomedial (BA24) Prefrontal Cortex in the Macaque”, was inspired by recent data in rodents implicating separate subcircuits between amygdala and infralimbic cortex, and amygdala and the prelimbic cortex, in fear extinction and fear consolidation, respectively. To find a comparable bridge to human fear studies, we designed studies to examine this question in monkeys because of their relatively larger and more subdivided cortical architecture that parallels the human. Analyzing dual retrograde injections into proposed ‘homologues’ of these rodent cortical regions in monkeys, we found that cells projecting to these cortical regions were mostly intermixed in several specific amygdala subnuclei in primates. Moreover, a subpopulation of neurons projected to both prefrontal regions, indicating common neural modulation of these functionally dissociated areas. Thus, amygdala inputs to separable, functionally opposed cortical regions exist in close proximity to one another in specific parts of the amygdala, and some of these cells participate in both ‘subcircuits’. Understanding this organization may provide clues about how to ‘tip the balance’ between fear learning and fear extinction learning in higher species, including humans that suffer from illnesses characterized by aberrant fear learning.
Introducing the Center for NeuroTherapeutics Discovery
Tuesday, May 16, 2017
The Center for Neural Development and Disease, led by Harris A. (Handy) Gelbard, M.D., Ph.D., since 2008, will now be the Center for NeuroTherapeutics Discovery, reflecting an increased emphasis on translation and the creation of intellectual property that will lead to new therapies for nervous system disorders.
Gelbard, professor of Neurology, Pediatrics, Neuroscience and Microbiology & Immunology, will continue as director. His research, coupled with the work of Charles Thornton, M.D., professor of Neurology and Neuroscience, and Marc Halterman, M.D., Ph.D., associate professor of Neurology, Neuroscience and Pediatrics, will serve as the anchor of the new center. The trio has a strong track record of grants, publications, and patents, as well as academic and commercial relationships that they are actively pursuing to bring new treatments to the public.
“The Center for NeuroTherapeutics Discovery was developed out of the Center for Neural Development and Disease to create more visibility for academic and commercial partnerships as a necessary bridge for bringing new therapeutics forward,” said Gelbard. “This represents a way to do the best and most cutting edge science possible in a time when the traditional avenues towards funding academic research are changing rapidly.”
The center will bring together many investigators from across the Medical Center and River Campus to identify the mechanisms that lead to various neurological disorders, including HIV-associated neurocognitive disorder (Gelbard lab), myotonic dystrophy (Thornton lab) and stroke (Halterman lab). The center remains committed to its members that investigate the molecular signaling events that lead to nervous system disease during development and aging. Industry partnerships and resources will be sought to fast-track existing therapies or create new molecules that affect these disease mechanisms.
Treatments that harness the immune system to help regenerate damaged cells will be a major focus at the center; the team believes that this approach is broadly applicable to a range of acute and chronic neurodegenerative disorders, such as Parkinson’s disease, multiple sclerosis and Alzheimer’s disease.
Dean’s Teaching Fellowship Recipients Named
Thursday, April 27, 2017
The 2017-2019 Dean’s Teaching Fellows have been named. Beau Abar, Ph.D., assistant professor of Emergency Medicine, has been named the Paul F. Griner Dean’s Teaching Fellow. Jessica Shand, M.D., MHS, assistant professor of Pediatrics, has been named the George L. Engel Dean’s Teaching Fellow. Katherine Greenberg, M.D., assistant professor of Adolescent Medicine and Obstetrics and Gynecology, has been named the Jules Cohen Dean’s Teaching Fellow. Linda Callahan, Ph.D., assistant professor of Neuroscience, has been named the Lawrence E. Young Dean’s Teaching Fellow.
The Dean’s Teaching Fellowship Program is a competitive endowed two-year program for faculty who are dedicated to academic careers in medical education. The mission of the program is to develop faculty who can prepare medical students, residents, and practicing physicians to become professionals who are responsive to society’s needs and the ever-changing health care system.
The program typically accepts four Fellows a year who attend a three-hour, bi-weekly seminar series focused on different areas of educational theory, research and teaching methods, educational technology, assessment, curriculum design, faculty development, leadership and career planning. During their time in the program, Fellows conduct a scholarly educational project that is directly translatable to their teaching role and will culminate in a publication or presentation at a national meeting.
Congrats to Gianluca Di Maria on the Winning an Award at the 2017 Neuro Film Festival
Wednesday, April 26, 2017
Congrats to Halterman Lab Medical Student Intern, Giancarlo DiMaria for his Neuroscience Is…™ Rewarding
winning video, “The Brain Scientist: Neuroscience is Rewarding.” Following a neurologist in the clinic and a neuroscientist in the lab, this video highlights the challenging but rewarding nature of a career in neuroscience.
Duje Tadin Awarded NARSAD Independent Investigator Award from the Brain and Behavior Research Foundation
Tuesday, April 25, 2017
Recently Dr. Duje Tadin, Associate Professor in Brain and Cognitive Sciences and at the Center for Visual Science won the NARSAD Independent Investigator Award from the Brain and Behavior Research Foundation. The title of his project is “A critical role of perceptual inefficiencies in working memory abnormalities in schizophrenia”. He also has a pending application to the Simons Foundation’s SFARI Pilot Awards program with a project titled “Functional consequences of elevated internal noise in autism.”
2017 Curtis Award
Monday, April 24, 2017
Neuroscience Graduate Program student Jessica Hogestyn, a student in the Mayer-Pröschel Lab, has been selected as one of the winners of the 2017 Edward Peck Curtis Award for Excellence in Teaching by a Graduate Student. Her nomination material exemplified her ability as an outstanding educator with bright future.
Monday, April 24, 2017
Researchers have discovered that a protein implicated in human longevity may also play a role in restoring hearing after noise exposure. The findings, where were published in the journal Scientific Reports, could one day provide researchers with new tools to prevent hearing loss.
The study reveals that a gene called Forkhead Box O3 (Foxo3) appears to play a role in protecting outer hair cells in the inner ear from damage. The outer hair cells act as a biological sound amplifier and are critical to hearing. When exposed to loud noises, these cells undergo stress. In some individuals, these cells are able to recover, but in others the outer hair cells die, permanently impairing hearing. While hearing aids and other treatments can help recovered some range of hearing, there is currently no biological cure for hearing loss.
“While more than a hundred genes have been identified as being involved in childhood hearing loss, little is known about the genes that regulate hearing recovery after noise exposure,” said Patricia White, Ph.D., a research associate professor in the University of Rochester Medical Center Department of Neuroscience and lead author of the study. “Our study shows that Foxo3 could play an important role in determining which individuals might be more susceptible to noise-induced hearing loss.”Read More: Gene May Hold Key to Hearing Recovery
Congratulations Drs. McConnell and Wang
Wednesday, April 19, 2017
It has been a very busy and successful spring for the NGP students. Evan McConnell, MD/PhD student successfully defended his PhD thesis on Wednesday, April 12 and Xiaowei Wang passed her final PhD examination on Monday, April 17, 2017. Both students come from Dr. Maiken Nedergaard lab.
Congratulations to both!
Wednesday, April 12, 2017
New study details “physical therapy” for eyes
DeMay fixes his gaze on a live image of his own eye
in preparation for the next round of training.
Patients who went partially blind after suffering a stroke regained large swaths of rudimentary sight after undergoing visual training designed by researchers at the University of Rochester Medical Center’s Flaum Eye Institute.
A new study out today in Neurology®, the medical journal of the American Academy of Neurology, provides the first evidence that rigorous visual training recovers basic vision in cortically blind patients with long-standing stroke damage in the primary visual cortex. Damage to this area of the brain prevents visual information from getting to other brain regions that help make sense of it, causing loss of sight in one-quarter to one-half of an individual’s normal field of view. Somewhere between 250,000 and 500,000 people suffer vision loss due to damage to the visual cortex each year.
“We are the only people in the U.S. currently using this type of training to recover vision lost after damage to the primary visual cortex,” said study senior author Krystel Huxlin, Ph.D., director of Research and James V. Aquavella, M.D. Professor of Ophthalmology at URMC’s Flaum Eye Institute. “If you talk to the majority of clinicians, they still believe nothing can be done.”Read More: Retraining the Brain to See After Stroke
Congratulations Dr. Mai
Monday, April 10, 2017
Nguyen Mai, an MD/PhD student in Dr. Marc Halterman's lab, has successfully defended her thesis.You can watch a stream of her defense from the URMC Panopto site.
Congratulations Dr. Nguyen!
Thursday, March 30, 2017
New research reveals the complex circuits involved in regulating the neurotransmitter dopamine in our brains. Traditionally thought to be limited to reward seeking, the new study shows that parts of the ‘emotional’ brain may also manipulate dopamine to help us pay attention and react to new information in the environment.
The study, which appears in the journal Neuropsychopharmacology, was led by Julie Fudge, M.D., with the University of Rochester Medical Center (URMC) Department of Neuroscience.
The research focuses on an area of the brain called the amygdala, which is known to be important for social and emotional development and behaviors. The amygdala receives sensory information – sight, sound, and smells – and processes it by combining it with information stored in our memories. It evaluates changes or new information to help determine whether it is worthy of our attention or if it can be ignored. The new study shows that one way the amygdala can accomplish this is by communicating with the brain’s dopamine producing cells.Read More: Study Shed New Light on Brain’s Decision-making Process
NIH Individual Pre-doctoral Fellowship
Friday, March 24, 2017
Student in Dr. Krystel Huxlin’s lab was awarded an NIH Individual Pre-doctoral Fellowship from the National Eye Institute for his project entitled: Properties of training-induced visual recovery in cortical blindness (2016-2019).
Berkeley Fahrenthold successfully defends her PhD thesis
Monday, March 20, 2017
Berkeley Fahrenthold, a graduate student in Dr. Rick Libby's lab, successfully defended her PhD thesis titled,"Assessment of the involvement of intrinsic and extrinsic cell death pathways in retinal ganglion cell death after excitotoxic injury".
Congratulations Dr. Fahrenthold!!!
Monday, March 20, 2017
Professor Edward Brown has received NIH funding for his research project titled, "Using Second Harmonic Generation to Predict Metastatic Outcome in Colon Adenocarcinoma."
"In summary, we previously discovered that an optical scattering phenomenon from primary tumor samples provides an independent prognostic indicator of time to metastasis in colon cancer patients," Professor Brown says. "With this grant we will explore if and how this can be used to improve prediction of outcomes for individual patients, leading to improved therapy decisions."
When treating a colon adenocarcinoma (CA) patient, after surgical resection of the tumor the clinician must formulate a plan for adjuvant systemic therapy. This decision is based upon an assessment of the risk of systemic disease recurrence, and is currently informed by pathological factors such as stage, histological grade, and lymph node status. Improvement of the accuracy of risk assessment for individual patients is an area of recognized need. Much of the current information used to assess risk focuses on the cells within tumors, including their morphological properties. Less attention is paid to the extracellular matrix through which metastasizing cells must travel. Second harmonic generation (SHG) is an optical scattering phenomenon whose directionality (as quantified by the “F/B” ratio) is affected by the diameter, spacing, and disorder of fibrils within collagen fibers. Our preliminary data suggests that F/B analysis of tumor samples provides prognostic information about future metastasis that is “matrix-focused” and hence complementary to current “cell-focused” methods. Consequently we hypothesize that F/B is a clinically useful predictor of metastatic outcome in colon adenocarcinoma. In a preliminary study in 44 Stage I colon adenocarcinoma samples we found that F/B of the primary tumor is a significant prognostic indicator of progression free survival time. Significantly, the quartile of patients with the lowest F/B ratio had a 15 year progression free survival percentage of below 50%. In other words, in this study F/B could identify a subset of Stage I patients who had survival statistics similar to Stage III patients. Stage I patients are rarely prescribed adjuvant chemotherapy while Stage III patients are almost always prescribed it. This suggests that F/B can identify patients who would have benefitted from adjuvant chemotherapy and who were left untreated based upon current prognostic indicators. The prognostic trend was also evident in a cohort of 72 Stage II colon adenocarcinoma samples, although it was not significant. This project will move this idea closer to the clinic by first (Aim 1) using archived samples and follow up data in separate training and validation sets to develop predictive algorithms that include F/B, in addition to clinical and genomic information. Second it will (Aim 2) quantify the effect of adjuvant chemotherapy on the predictive ability of the algorithms, as well as quantify their ability to predict chemotherapeutic efficacy. We predict that F/B analysis will be an effective tool that can reach the clinic rapidly after this study to improve metastatic risk assessment. Improving the accuracy of risk estimation for an individual patient will allow clinicians to treat those patients who are destined for metastases, improving outcomes, while avoiding treatment for those patients who are not, reducing overtreatment.Read More: Professor Ed Brown receives NIH grant for research project, "Using Second Harmonic Generation to Predict Metastatic Outcome in Colon Adenocarcinoma"
Friday, March 17, 2017
The Regional Science and Technology Entry Program (STEP UP) to Medicine conference was hosted by the University of Rochester on March 4th, 2017. NGP student, Monique Mendes was invited to serve as a judge at the poster session during the event based on her earlier involvement with that Program. Back in fall 2016, Monique and the Pre-doctoral Organization for Neurosciences (PONs), was invited to meet with the STEP UP to MEDICINE participants to discuss the brain and to share their neuroscientific research experiences. STEP UP to MEDICINE is a state funded program intended to help gifted and motivated high school students from economically disadvantaged backgrounds into undergraduate and graduate Science and Technology programs across the state of New York. On March 4th, the University of Rochester hosted STEP UP to Medicine conference attended by 15 statewide STEP programs representing 10 students each. The high school students had a chance to meet with their peers from other institutions, the UR physicians, technical staff, medical, and graduate students. Read More: Monique Mendes Serves as Judge at STEP UP to Medicine Poster Session
Wednesday, March 8, 2017
A new study shows that the brain’s waste removal system serves as both trash collector and delivery service, providing neurons with a protein important to maintaining cognitive function while simultaneously cleaning brain tissue. The research may help explain why different genetic varieties of the protein, called apolipoprotein E (apoE), can indicate risk for Alzheimer’s disease or promote longevity.
The study was led by Rashid Deane, B.Sc., Ph.D., a research professor in the University of Rochester Medical Center Department of Neurosurgery and member of the Center for Translational Neuromedicine, and appears in the journal Molecular Neurodegeneration.Read More: Protein Key to Nerve Health Hitches a Ride on Brain’s Garbage Truck
Monday, March 6, 2017
Caring for a loved one with dementia can be very
stressful, but two URMC research studies are
exploring ways to help caregivers manage stress
and improve their own health.
Caring for a loved one with Alzheimer’s disease or dementia can not only be very stressful, but can negatively affect the well-being of the caregiver. A pair of studies at the University of Rochester Medical Center is exploring ways to help caregivers manage stress and improve their own health so they can more effectively provide care for their loved one.
Kathi Heffner, Ph.D., associate professor in the School of Nursing and Department of Psychiatry, and Jan Moynihan, Ph.D., the George L. Engel Professor in Psychosocial Medicine in the Departments of Psychiatry and Microbiology and Immunology, were awarded more than $5.66 million in NIH funding for two five-year randomized clinical intervention trials focusing on reducing the effects of caregiving on immune health.
Heffner is principal investigator on a cognitive training intervention trial looking at different types of brain training activities and whether they have an effect on the aging of the caregiver’s immune system. Moynihan is leading a study on mindfulness-based stress reduction (MBSR), to see if mindfulness can lead to better immune response to the influenza vaccine.Read More: Clinical Trials Aim to Reduce Stress Burden for Dementia Caregivers
SFN Rochester Chapter News
Thursday, March 2, 2017
The grant application to support the Rochester Society for Neuroscience chapter was recently funded due to efforts by Past President, Doug Portman. Thanks to Doug’s efforts and excellent leadership over the last two years, we can continue our efforts to increase neuroscience awareness and education in our community.
The current Chapter President, Liz Romanski, would like to congratulate the organizers and volunteers for hosting a very successful, first ever, Rochester Brain Bee on February 11, 2017 (picture attached). Ten students from high schools in the Rochester area competed in the Brain Bee, answering questions spanning a large body of neuroscience facts covering brain development, cognition, disease processes, neuroimaging, etc. The three finalists in the Brain Bee were:
- Neli Kotlyar, Pittsford Mendon High School (grade 10)
- Maha Khokhar, Pittsford Sutherland High School (grade 12)
- Kathryn Gentile, Pittsford Mendon High School (grade 11)
Heather Natola and Nicole Peltier were the organizers of the Brain Bee, and were assisted by volunteers from the Brain Awareness committee including Neuroscience graduate students Jessie Hogestyn and Josh Hinkle, and BCS grad students Alyssa Kersey, Carol Jew, and Matt Overlan. The winner of the Brain Bee will fly to Baltimore, MD in March for the National Brain Bee. Funding was made possible by the Society for Neuroscience Chapter, the Neuroscience Graduate Program, and the Department of Neuroscience with prizes from local businesses and donations from Drs. Huxlin and Nehrke. Great job all!
Professor Edward Brown and Professor Catherine K. Kuo receive grant from Department of Defense office of the Congressionally Directed Medical Research Programs
Thursday, February 23, 2017
The Department of Defense office of the Congressionally Directed Medical Research Programs has awarded Professor Edward Brown and Professor Catherine K. Kuo a grant for their research project titled, "Understanding the Role of Matrix Microstructure in Metastasis.” The goal of this project is to evaluate molecular mechanisms underlying the ability of an optical scattering phenomenon to predict metastatic outcome in patient samples.
Tuesday, February 21, 2017
Nina Schor, M.D., Ph.D., William H. Eilinger Chair of Pediatrics and the pediatrician-in-chief at UR Medicine’s Golisano Children’s Hospital, has been named the recipient of the Child Neurology Society’s 2017 Hower Award, the organization’s highest honor.
The award is given annually to a child neurologist for being an outstanding teacher, scholar, and for making high levels of contributions to the field and to the Child Neurology Society. Schor, who has spent much of her career researching neuroblastoma, one of the most common childhood cancers, will be recognized at the society’s annual meeting in October, in Kansas City, Mo. She will also have the honor of giving the annual Hower lecture.
“I am so honored and excited to accept this award and present the associated lecture to an audience comprised of my colleagues, friends, mentors, and trainees,” said Schor.
The Child Neurology Society is the preeminent non-profit professional association of pediatric neurologists in the United States, Canada, and worldwide. Schor, the University of Rochester Medical Center’s seventh Chair of the Department of Pediatrics, joined the university in 2006.Read More: Schor to Receive Child Neurology Society's Highest Honor
Project Explores Machine Learning to Help Predict Alzheimer’s Disease
Friday, February 17, 2017
Feng Vankee Lin, assistant professor of Nursing, and Rajeev Raizada, assistant professor of Brain and Cognitive Sciences, have been awarded a Collaborative Pilot Award in Health Analytics from the Goergen Institute for Data Science.
The one-year project will use big data in an effort to develop an algorithm for predicting Alzheimer’s disease. The project will analyze large brain-imaging datasets and use multiple machine-learning approaches to uncover diagnostic patterns and create a more reliable predictive model for detecting Alzheimer’s disease.
“It will help initiate a new research area focusing on neuroimaging methodology development in relation to Alzheimer’s disease,” said Lin.
The award includes a $35,000 grant for the project, which runs from Feb. 1, 2017 to Jan. 31, 2018.
Located in Wegmans Hall, the Goergen Institute for Data Science is a hub for interdisciplinary data science research. Its work in health analytics – using data to predict individual health outcomes – includes advances in using data to help analyze the brain more effectively and sharing the data with other researchers to discover more ways to improve outcomes for patients.
Distinguished Neurotoxicologist Award 2017
Monday, February 13, 2017
The Society of Toxicology (SOT) Neurotoxicology Specialty Section (NTSS) Awards Committee has selected Dr. Deborah Cory-Slechta as the recipient of the Distinguished Neurotoxicologist Award. This award will be presented at the NTSS Reception that will be held on Wednesday, March 15, 2017 at the Hilton Baltimore Key Ballroom 6.
Dr. Cory-Slechta has demonstrated a life-long commitment to neurotoxicology. She has been a pioneer in championing neurotoxicology and behavioral science, and in exploring the interactions of chemical and non-chemical stressors to understand the complex etiology of behavioral diseases. This research is highlighted, for example, in experimental work confirming that low-level lead exposure alters neurodevelopment, which was highly influential in setting federal guidelines for developmental lead exposures. Her more recent research including that on the interactions between air pollution exposure and socioeconomic stress on neurodevelopment also promises to be highly influential. In addition, Dr. Cory-Slechta has served extensively in a variety of administrative roles including as Department Chair, Institute Director, and Dean for Research at two prominent academic programs on occupational and environmental health. She also has served on numerous federal advisory panels and as an Officer and President of the NTSS. This overall record of research accomplishments and service marks a singularly distinguished career in neurotoxicology that is recognized by this award.
The committee considered three superb nominations for the Distinguished Neurotoxicologist Award. The review panel (Drs. William Boyes (chair), Michelle Block, Aaron Bowman, Steven Lasley, and Marion Ehrich) carefully evaluated these nominations relative to contributions to the science of neurotoxicology, the use of neurotoxicological science in making risk assessment and regulatory decisions, and service to the NTSS and the field of neurotoxicology. All three nominees were outstanding, exceptionally accomplished, and each has made strong contributions to neurotoxicology. Unfortunately, in any one year we are able to select only one individual for the Distinguished Neurotoxicologist Award.
The Neurotoxicology Specialty Section (NTSS) has a rich history of outstanding scientists advancing our field through research, regulatory, and service accomplishments. In the past, NTSS has recognized four scientists as Distinguished Investigators in the field of Neurotoxicology from 2001 through 2006 and Dr. Joan Cranmer in 2008 for Distinguished Service to Neurotoxicology. However, despite many accomplished scientists contributing greatly and in a variety of ways to the field, this award has been dormant since 2008. In an effort to establish a continuous mechanism to acknowledge the top leaders in our field, the NTSS leadership reinstated a career recognition award, now called the Distinguished Neurotoxicologist Award. This year, we established clear criteria, defined procedures, encouraged nominations, and convened a committee to evaluate applications. For those interested, the details of this process can be found on the NTSS website.
Congratulations to Dr. Cory-Slechta
Lin Receives Pilot Award in Health Analytics from Goergen Institute for Data Science
Thursday, February 9, 2017
Feng Vankee Lin, Ph.D., RN, was recently awarded a Collaborative Pilot Award in Health Analytics from the University's Goergen Institute for Data Science.
Lin, an assistant professor at SON, is principal investigator on a one-year project which will use big data in an effort to develop an algorithm for predicting Alzheimer’s disease. The project will analyze large brain-imaging datasets and use multiple machine-learning approaches to uncover diagnostic patterns and create a more reliable predictive model for detecting Alzheimer’s disease.
“I’m grateful for this award and the opportunity to take my research in an exciting new direction,” said Lin. “It will help initiate a new research area focusing on neuroimaging methodology development in relation to Alzheimer’s disease.”
The award includes a $35,000 grant for the project, which runs from Feb. 1, 2017 to Jan. 31, 2018. Rajeev Raizada, Ph.D., assistant professor of Brain and Cognitive Sciences, is co-principal investigator on the project.
Shawn Newlands Appointed Associate CMO for Ambulatory Care
Thursday, February 9, 2017
In a move that reflects the importance of our expanding outpatient network, Shawn Newlands, M.D., Ph.D., M.B.A, has been appointed to the newly created role of Associate Chief Medical Officer for URMC’s ambulatory care enterprise.
“In many ways, this role formalizes and expands the successful work Shawn already does as chair of URMFG’s Clinical Operations Committee, where he has helped build a solid framework for faculty input and oversight of guidelines, policies and other decisions that impact the delivery of patient care in our ambulatory settings,” said Michael F. Rotondo, M.D., F.A.C.S., CEO of URMFG. “As a proven leader who builds consensus and finds the middle ground amid disparate views, he will be a focused and effective guide for our ambulatory enterprise.”
Monday, January 30, 2017
Major Step toward Longer-Lasting HIV Treatment
A drug developed at the University of Rochester Medical Center extends the effectiveness of multiple HIV therapies by unleashing a cell’s own protective machinery on the virus. The finding, published today in the Journal of Clinical Investigation, is an important step toward the creation of long-acting HIV drugs that could be administered once or twice per year, in contrast to current HIV treatments that must be taken daily.
The drug, called URMC-099, was developed in the laboratory of UR scientist Harris A. (“Handy”) Gelbard, M.D., Ph.D. When combined with “nanoformulated” versions of two commonly used anti-HIV drugs (also called antiretroviral drugs), URMC-099 lifts the brakes on a process called autophagy.
Normally, autophagy allows cells to get rid of intracellular “trash,” including invading viruses. In HIV infection, the virus prevents cells from turning on autophagy; one of the many tricks it uses to survive. When the brake on autophagy is lifted, cells are able to digest any virus that remains after treatment with antiretroviral therapy, leaving cells free of virus for extended periods of time.
Harris A. (“Handy”) Gelbard, M.D., Ph.D.
“This study shows that URMC-099 has the potential to reduce the frequency of HIV therapy, which would eliminate the burden of daily treatment, greatly increase compliance and help people better manage the disease,” said Gelbard, professor and director of UR’s Center for Neural Development and Disease, who has studied HIV/AIDS for the past 25 years. The finding builds on previous research that Gelbard conducted with Howard E. Gendelman, M.D., professor and chair of the Department of Pharmacology/Experimental Neuroscience at the University of Nebraska Medical Center.Read More: URMC Drug Extends Effectiveness of HIV Therapy
Liz Romanski to serve as President of Rochester Chapter of Society for Neuroscience
Wednesday, January 25, 2017
Liz Romanski, Associate Professor of Neuroscience at the University of Rochester, will serve as President of the Rochester Chapter of the Society for Neuroscience for the 2017-2108 term.
The Chapter is involved in a number of activities designed to strengthen Neuroscience research, education, and outreach in the Rochester area. In addition to Dr. Romanski, the Chapter's current leadership council includes Secretary/Treasurer Chris Holt, Faculty Councilor Amy Kiernan, Past Presidents Krystel Huxlin and Doug Portman, Postdoctoral Councilor Sarah Heilbronner, Graduate Student Councilor Heather Natola, and Administrative Coordinator Ania Dworzanski.
Tuesday, January 24, 2017
A study led by Jessica Cantlon, associate professor of brain and cognitive sciences, suggests that primates have the ability to distinguish large and small quantities of objects, irrespective of the surface area they appear to occupy.
Adults and children in the US, adults from a 'low numeracy' tribe in Bolivia and rhesus monkeys ALL possessed the ability to distinguish between large and small quantities of objects, regardless of the surface area they occupy. This ability is likely a shared evolutionary trait, according to a study. The nonverbal visual tests could be used in assessing early math education in young children.Read More: What humans, primates both know when it comes to numbers
Kelli Fagan defends her thesis
Monday, January 23, 2017
NGP student Kelli Fagan successfully defended her PhD thesis titled, “The Genetic Sex of the Sensory Neuron ADF Confers Pheromone Attraction in C. elegans”.
Congratulations Dr. Fagan!
Julianne Feola successfully defends thesis
Wednesday, January 18, 2017
Congratulations to Julianne Feola on completing her PhD degree on Monday, January 17, 2017. Julie was a student in Dr. Gail Johnson lab. She wrote a PhD thesis on The Role of Astrocytic Transglutaminase 2 in mediating Cellular Viability Processes.
Best luck, Julie!
Thursday, January 5, 2017
David Williams, Ph.D.
Researchers at the University of Rochester Medical Center have developed a new imaging technique that could revolutionize how eye health and disease are assessed. The group is first to be able to make out individual cells at the back of the eye that are implicated in vision loss in diseases like glaucoma. They hope their new technique could prevent vision loss via earlier diagnosis and treatment for these diseases.
In a study highlighted in the Proceedings of the National Academy of Sciences, Ethan A. Rossi, Ph.D., assistant professor of Ophthalmology at the University of Pittsburgh School of Medicine, describes a new method to non-invasively image the human retina, a layer of cells at the back of the eye that are essential for vision. The group, led by David Williams, Ph.D., Dean for Research in Arts, Sciences, and Engineering and the William G. Allyn Chair for Medical Optics at the University of Rochester, was able to distinguish individual retinal ganglion cells (RGCs), which bear most of the responsibility of relaying visual information to the brain. Read More: A Closer Look at the Eye: Researchers Develop New Retinal Imaging Technique
Thursday, January 5, 2017
A new study sheds light on changes in the brain that may explain why young infants who are placed in an orphanage or foster care often struggle with social relationships later in life.
The findings, which were published in the journal Developmental Psychobiology, come from a team of researchers led by Julie Fudge, M.D., with the University of Rochester Medical Center (URMC) Department of Neuroscience. The scientists revisited data from a study involving monkeys that took place more than a decade ago at the University of Pittsburgh and was designed to observe the behaviors of newborns that were separated from their biological mothers and raised by another group of females. The original study noted that these monkeys differed in their social interactions – such as grooming, huddling together, and normal aggression – compared to those that were raised by their mothers.
Like humans, monkey’s brains are not fully developed at birth and the animals are dependent upon the nurturing of caregivers for many months early in life. Fudge and her colleagues wanted to see if there could find an association between the absence of a primary caregiver and biological changes in the brain that could explain the lasting social impairment observed in the monkeys.
Read More: Mother’s Touch May Extend to Brain Development