A Sustained Partnership Between a Haitian Children's Hospital and North American Academic Medical Centers

Koster, Michael P., Williams, Jackson H., Gautier, Jacqueline, Alce, Renee, Trappey, Bernard E.

01 January 2017

Global health initiatives from academic medical centers have rapidly proliferated over the last decade. This paper endeavors to describe our 5-year experience as an academic medical collaborative supporting healthcare delivery, medical training, and research at Hôpital Saint Damien-Nos Petits Frères et Soeurs, the only freestanding children's hospital in Haiti. Descriptions of the history and current activities of our academic medical collaborative, its partnership and communication structure, its evolution to fill the expressed needs of our host site, its funding mechanisms, and its challenges and opportunities for the future are included.

Haiti

academic medical center

capacity building

collaborative

global health

medical education

pediatrics

training

Pediatrics

Integrating University and VAMC Resources: Development of an AuD Program

Fagelson, Marc A., Wilson, Richard H.

10 January 2004

No description available.

university

veterans affairs medical center

VAMC

development

audiology

graduate program

Audiology and Speech-Language Pathology

Higher Education

Speech Pathology and Audiology

Spirituality and sickness a Tanzanian Christian experience /

Temu, Aloys Highlife,

January 1900

Thesis (D. Min.)--Catholic Theological Union at Chicago, 2003. / Vita. Includes bibliographical references (leaves 165-174).

Estimation of bed needs for the maternal and child health services in the Wilmington Medical Center submitted ... in partial fulfillment ... Master of Hospital Administration /

Tinker, A. James.

January 1968

Thesis (M.H.A.)--University of Michigan, 1968.

A reduction of thanophobia [i.e. thanatophobia] of the nurses /

Kim, Saena,

January 2003

Applied research project (D. Min.)--School of Theology and Missions, Oral Roberts University, 2003. / Includes abstract and vita. Translated from Korean. Includes bibliographical references (leaves 186-193).

[A reduction of thanatophobia of the nurses] /

Kim, Saena,

January 2003

Applied research project (D. Min.)--School of Theology and Missions, Oral Roberts University, 2003. / Includes abstract and vita. Includes bibliographical references (leaves 186-193).

Estimation of bed needs for the maternal and child health services in the Wilmington Medical Center submitted ... in partial fulfillment ... Master of Hospital Administration /

Tinker, A. James.

January 1968

Thesis (M.H.A.)--University of Michigan, 1968.

Physician's adherence to the standard protocol for diabetes treatment in Brooke Army Medical Center (BAMC).

Martinez, Celestino Mario. Homedes, Nuria,

January 2007

Source: Masters Abstracts International, Volume: 46-01, page: 0343. Adviser: Nuria Homedes. Includes bibliographical references.

Why Patients Miss Appointments at an Integrated Primary Care Clinic

Wilsey, Katherine Lambos

31 August 2020

No description available.

Clinical Psychology

integrated primary care

missed appointments

academic medical center

primary care behavioral health

patient-centered medical home

Novel Image Acquisition and Reconstruction Methods: Towards Autonomous MRI

Ravi, Keerthi Sravan

January 2024

Magnetic Resonance Imaging (MR Imaging, or MRI) offers superior soft-tissue contrast compared to other medical imaging modalities. However, access to MRI across developing countries ranges from prohibitive to scarcely available. The lack of educational facilities and the excessive costs involved in imparting technical training have resulted in a lack of skilled human resources required to operate MRI systems in developing countries. While diagnostic medical imaging improves the utilization of facility-based rural health services and impacts management decisions, MRI requires technical expertise to set up the patient, acquire, visualize, and interpret data. The availability of such local expertise in underserved geographies is challenging. Inefficient workflows and usage of MRI result in challenges related to financial and temporal access in countries with higher scanner densities than the global average of 5.3 per million people. MRI is routinely employed for neuroimaging and, in particular, for dementia screening. Dementia affected 50 million people worldwide in 2018, with an estimated economic impact of US $1 trillion a year, and Alzheimer’s Disease (AD) accounts for up to 60–80% of dementia cases. However, AD-imaging using MRI is time-consuming, and protocol optimization to accelerate MR Imaging requires local expertise since each pulse sequence involves multiple configurable parameters that need optimization for acquisition time, image contrast, and image quality. The lack of this expertise contributes to the highly inefficient utilization of MRI services, diminishing their clinical value. Augmenting human capabilities can tackle these challenges and standardize the practice. Autonomous and time-efficient acquisition, reconstruction, and visualization schemes to maximize MRI hardware usage and solutions that reduce reliance on human operation of MRI systems could alleviate some of the challenges associated with the requirement/absence of skilled human resources. We first present a preliminary demonstration of AMRI that simplifies the end-to-end MRI workflow of registering the subject, setting up and invoking an imaging session, acquiring and reconstructing the data, and visualizing the images. Our initial implementation of AMRI separates the required intelligence and user interaction from the acquisition hardware. AMRI performs intelligent protocolling and intelligent slice planning. Intelligent protocolling optimizes contrast value while satisfying signal-to-noise ratio and acquisition time constraints. We acquired data from four healthy volunteers across three experiments that differed in acquisition time constraints. AMRI achieved comparable image quality across all experiments despite optimizing for acquisition duration, therefore indirectly optimizing for MR Value – a metric to quantify the value of MRI. We believe we have demonstrated the first Autonomous MRI of the brain. We also present preliminary results from a deep learning (DL) tool for generating first-read text-based radiological reports directly from input brain images. It can potentially alleviate the burden on radiologists who experience the seventh-highest levels of burnout among all physicians, according to a 2015 survey. Next, we accelerate the routine brain imaging protocol employed at the Columbia University Irving Medical Center and leverage DL methods to boost image quality via image-denoising. Since MR physics dictates that the volume of the object being imaged influences the amount of signal received, we also demonstrate subject-specific image-denoising. The accelerated protocol resulted in a factor of 1.94 gain in imaging throughput, translating to a 72.51% increase in MR Value. We also demonstrate that this accelerated protocol can potentially be employed for AD imaging. Finally, we present ArtifactID – a DL tool to identify Gibbs ringing in low-field (0.36 T) and high-field (1.5 T and 3.0 T) brain MRI. We train separate binary classification models for low-field and high-field data, and visual explanations are generated via the Grad-CAM explainable AI method to help develop trust in the models’ predictions. We also demonstrate detecting motion using an accelerometer in a low-field MRI scanner since low-field MRI is prone to artifacts. In conclusion, our novel contributions in this work include: i) a software framework to demonstrate an initial implementation of autonomous brain imaging; ii) an end-to-end framework that leverages intelligent protocolling and DL-based image-denoising that can potentially be employed for accelerated AD imaging; and iii) a DL-based tool for automated identification of Gibbs ringing artifacts that may interfere with diagnosis at the time of radiological reading. We envision AMRI augmenting human expertise to alleviate the challenges associated with the scarcity of skilled human resources and contributing to globally accessible MRI.

Magnetic resonance imaging

Brain--Magnetic resonance imaging

Diagnostic imaging

Dementia--Diagnosis

Alzheimer's disease--Diagnosis

Columbia University Medical Center