Women’s Health | NYU Langone Health
Our women’s health experts are located throughout Manhattan, Brooklyn, and Long Island.
Women's Health Conditions & Treatments | NYU Langone Health
Physicians from several medical specialty areas are available at NYU Langone’s Joan H. Tisch Center for Women’s Health.
Women's Health—Family Health Centers at NYU Langone | NYU Langone Health
The Family Health Centers at NYU Langone provide women’s health services, including prenatal care.
Women's Health Rehabilitation | NYU Langone Health
Women’s Health Rehabilitation at NYU Langone’s Rusk Rehabilitation provides therapy for incontinence, osteoporosis, and pregnancy-related pain.
World Trade Center Particulate Matter Induced Cardiorespiratory and Vascular Dysfunction: a MultiOmic Approach
Particulate matter (PM) associated cardiorespiratory and vascular dysfunction (CaRVD) poses a significant global health burden. The World Trade Center (WTC) destruction on September 11, 2001 led to an intense deposition of particulate matter (WTC-PM) into aerodigestive system. WTC associated morbidities include respiratory, gastrointestinal, chronic rhinosinusitis, cancer, mental health concerns and more recently a focus has been on cardiovascular disease. Our proposal will investigate the development of WTC-cardiorespiratory and vascular dysfunction (WTC-CaRVD) which is firmly within the purview of the James Zadroga 9/11 Health and Compensation Act. WTC-PM exposure causes heterogeneous obstructive airways disease (OAD) patterns, which include airway hyperreactivity (AHR) and loss of FEV1. Early diagnosis and therapeutic options are few, in part due to our limited understanding of their pathogenesis. While pulmonary vascular changes are classically thought to occur due to the hypoxemia of late OAD, recent investigations show that vascular dysfunction occurs early in OAD. This vascular hypothesis of OAD postulates that pulmonary vasculature remodeling leads to loss of lung function. Early evidence of WTC-CaRVD includes increased prevalence of cardiovascular disease risk factors such as metabolic syndrome, elevated pulmonary artery/aorta ratio, and cardiovascular biomarkers (such as CRP). Murine models of WTC-PM exposure show inflammation, AHR both acutely and persistently and reflect what is seen in FDNY 1st responders. Airway and cardiac remodeling were also persistent features of WTC-PM exposure in our murine models. Therefore, we will focus on Heme Oxygenase-1 (HO-1), a mediator of oxidative stress, known to stimulate collagen formation and is also induced after WTC-PM exposure. Furthermore, pathways and mechanisms of WTC-CaRVD warrant further study and are the focus of our 5-year proposal. Our HYPOTHESIS is that WTC-PM exposure causes WTC-CaRVD mediated by HO-1. First responders with AHR will have features of WTC-CaRVD, and will demonstrate a unique biomarker profile compared to controls. Innovative aspects of this application include novel imaging modalities and multiOmic (radiome/metabolome/methylome) assessments. These hypotheses will be explored in three AIMs. AIM 1, we will explore the translatability of our findings in the FDNY WTC cohort. AIM 2 will phenotype serum biomarkers/metabolites, epigenetics, histology and in vivo imaging (echocardiography, MRI, and µPET/µCT) of WTC-CaRVD. Furthermore, we will utilize mice genetically deficient in HO-1 and exogenously attenuate HO-1 in our murine WTC-PM model, AIM 2 and 3. AIM 3 will quantify end organ involvement and loss/gain of function of HO-1 by myography and immunohistologic expression of vascular markers. Confirmation of the relevance of the vascular and airway remodeling of WTC-PM associated AHR would allow us to then focus on early detection and tailor our therapeutics in the WTC-PM exposed cohorts on mediators of oxidative stress.
Wrist & Hand Repetitive Use Injuries | NYU Langone Health
NYU Langone orthopedists diagnose and treat many types of overuse injuries to the hand and wrist.
X-Ray Imaging | NYU Langone Health
NYU Langone offers bone, chest, abdominal, and dental X-rays.
Young Lung Cancer Program | NYU Langone Health
Experts at the Young Lung Cancer Program, part of NYU Langone’s Lung Cancer Center, offer personalized care for younger people with lung cancer.
Young Onset Parkinson s disease Subtypes and Pathogenic Mechanisms
Young Onset Parkinson’s disease refers to a -group of patients in which the disease starts earlier in life (before the age of 50 years) and has a profound impact on most of patient’s life and on important productive years. Our current knowledge regarding the pathogenic mechanisms of YOPD is lacking, and understanding these are crucial for the successful design of therapeutic strategies and stratifying patients for clinical trials. The proposed research is relevant to public health because it aims to clarify the contribution of recognized important pathogenic mechanisms of Parkinson’s disease (genetics, inflammation, and alpha-synuclein accumulation) in patient with Young onset Parkinson’s disease to help patient stratification for clinical counseling and clinical trials.With the present project we propose to study a cohort of subjects with YOPD (n = 150) compared to n=50 LOPD and n=50 CTRLs. For each enrolled subject we will collect clinical data and biospecimens including blood specimen, skin punch biopsy. CSF will be collected from a sub-cohort of subjects (n = 20 YOPD, n = 20 LOPD, n = 20 CTRLs).
Your Cancer Care Team | NYU Langone Health
At Perlmutter Cancer Center, your cancer care team works together to provide individualized diagnostic testing and treatment.