Your search keyword '"Kimberly L. Bothi"' showing total 5 results

1. Mask Reuse in the COVID-19 Pandemic: Creating an Inexpensive and Scalable Ultraviolet System for Filtering Facepiece Respirator Decontamination

Author

Brielle Hayward-Piatkovskyi, Michael J Donzanti, Jason P. Gleghorn, Jasmine Shirazi, Allyson M. Dang, Kimberly L. Bothi, Katherine M. Nelson, Rachel M Gilbert, Christine L Hatem, and Daniel Minahan

Subjects

business.product_category, Ultraviolet Rays, Computer science, Pneumonia, Viral, Reuse, Computer security, computer.software_genre, Betacoronavirus, 03 medical and health sciences, Biosafety, 0302 clinical medicine, Resource (project management), Health care, Pandemic, Humans, 030212 general & internal medicine, Respiratory Protective Devices, Respirator, Pandemics, Personal protective equipment, Decontamination, 030219 obstetrics & reproductive medicine, SARS-CoV-2, business.industry, Methodology, COVID-19, Ultraviolet germicidal irradiation, General Medicine, Coronavirus Infections, business, computer

Abstract

We outline a simple, low-cost design—both scalable and adaptable worldwide—to decontaminate filtering facepiece respirators (FFRs) using ultraviolet bulbs and supplies found in most hardware stores. The setup will help health care workers safely reuse FFRs in light of the shortages during the COVID-19 pandemic., Key Messages Ultraviolet germicidal irradiation (UVGI) systems can be used to decontaminate filtering facepiece respirators that are in short supply during the current COVID-19 pandemic, but are costly and scarce.Custom-built UVGI systems can be easily and affordably created using common items found in hardware stores and within research institutions.Health care workers and administrators should consider this setup as a cost-effective option to combat personal protective equipment (PPE) shortages during the current pandemic.Academic institutions should consider fostering collaborations with local health care institutions to provide idle resources to front line health care workers facing PPE shortages., As the current COVID-19 pandemic illustrates, not all hospitals and other patient care facilities are equipped with enough personal protective equipment to meet the demand in a crisis. Health care workers around the world use filtering facepiece respirators to protect themselves and their patients, yet during this global pandemic they are forced to reuse what are intended to be single-use masks. This poses a significant risk to these health care workers along with the people they are trying to protect. Ultraviolet germicidal irradiation (UVGI) has been validated previously as a method to effectively decontaminate these masks between use. However, not all facilities have access to the expensive commercial ultraviolet type C (UV-C) lamp decontamination equipment required for UVGI. UV-C bulbs are sitting idle in biosafety cabinets at universities and research facilities around the world that have been shuttered to slow the spread of COVID-19. These bulbs may also be available in existing medical centers where infectious diseases are commonly treated. We developed a method to modify existing light fixtures or create custom light fixtures that are compatible with new or existing UV-C bulbs. This system is scalable; can be created for less than US$50, on site and at the point of need; and leverages resources that are currently untapped and sitting unused in public and private research facilities during the pandemic. The freely accessible design can be easily modified for use around the world. Health care facilities can obtain this potentially lifesaving UVGI resource with minimal funds by collaborating with research facilities to obtain the UV-C meters and UV-C bulbs if they are unavailable from other sources. Although mask reuse is not ideal, we must do what we can in emergency situations to protect our health care workers responding to the pandemic and the communities they serve.

Published

2020

2. Healthcare worker mask reuse in a global pandemic: Using idle resources to create an inexpensive, scalable, and accessible UV system for N95 sterilization

Author

Rachel M. Gilbert, Michael J. Donzanti, Daniel J. Minahan, Jasmine Shirazi, Christine L. Hatem, Brielle Hayward-Piatkovskyi, Allyson M. Dang, Katherine M. Nelson, Kimberly L. Bothi, and Jason P. Gleghorn

Subjects

Idle, Biosafety, business.industry, Pandemic, Health care, Scalability, Ultraviolet germicidal irradiation, Reuse, business, Computer security, computer.software_genre, Personal protective equipment, computer

Abstract

As the current COVID-19 pandemic illustrates, not all hospitals and other facilities are equipped with enough personal protective equipment to meet the demand in a crisis. Healthcare workers around the world utilize N95 masks to protect themselves and their patients, yet during this global pandemic they are forced to re-wear what is intended to be single-use masks. This poses significant risk to these healthcare workers along with the populations they are trying to protect. Ultraviolet germicidal irradiation (UVGI) has been validated previously as a way to effectively sterilize these masks between use, however, not all facilities have access to the high cost commercial UV-C lamp sterilization equipment. However, UV-C bulbs are sitting idle in biosafety cabinets (BSCs) at universities and research facilities around the globe that have been shuttered to slow the spread of COVID-19. These bulbs may also be available in existing medical centers where infectious diseases are commonly treated. Therefore, we have developed a method to modify existing light fixtures, or create custom light fixtures compatible with new or existing common UV-C bulbs. This system is scalable and can be created for less than 50 US dollars, on site, at the point of need, and leverages resources that are currently untapped and sitting unused in public and private research facilities. The freely-accessible design can be easily modified for use around the world. Hospitals can obtain this potentially life-saving UVGI resource with minimal funds, via collaboration between research facilities to obtain the UV-C meters and limited availability UVGI bulbs. While mask reuse is not ideal, we must do what we can in emergency situations to protect our frontline healthcare workers and the communities they serve.

Published

2020

3. Linking rural livelihood resilience and food security: an international challenge

Author

Andrew G. Mude, Kimberly L. Bothi, Gordon M. Hickey, and Bernard Pelletier

Subjects

Economic growth, Food security, 010504 meteorology & atmospheric sciences, Corporate governance, 010501 environmental sciences, Development, Mainstreaming, Livelihood, Security policy, 01 natural sciences, Social transformation, Socio-ecological system, Business, Agronomy and Crop Science, Environmental planning, 0105 earth and related environmental sciences, Food Science, Social policy

Abstract

In many parts of the world, rural livelihoods are characterized by a high degree of vulnerability to climate change, market volatility, and political unrest. Increasingly, the concept of resilience is being used to inform development initiatives aimed at building the capacity of rural households and communities to cope, adapt, and transform in the face of diverse shocks and stressors. There remain, however, significant challenges to mainstreaming resilience thinking into food and nutrition security policy and programming, primarily because the concept is best understood as being embedded within dynamic and highly contextual processes that can be interpreted differently by various parties. This Special Section of Food Security presents international case studies exploring the vulnerability of rural livelihoods and the initiatives proposed to build resilience, providing valuable insights into the practical challenges to assessing resilience in different contexts. Through different applications of the resilience concept, these case studies highlight the key roles played by broader social, institutional, and governance contexts in affecting food and nutrition security. The need to better supplement the development of reliable metrics for assessing resilience with richer and more context-specific narratives is also highlighted.

Published

2016

4. Food Security, Gender and Resilience : Improving Smallholder and Subsistence Farming

Author

Leigh Brownhill, Esther Njuguna, Kimberly L. Bothi, Bernard Pelletier, Lutta Muhammad, Gordon M. Hickey, Leigh Brownhill, Esther Njuguna, Kimberly L. Bothi, Bernard Pelletier, Lutta Muhammad, and Gordon M. Hickey

Subjects

Food security--Kenya, Women in agriculture--Kenya, Farms, Small--Kenya, Subsistence farming--Kenya

Abstract

Through the integration of gender analysis into resilience thinking, this book shares field-based research insights from a collaborative, integrated project aimed at improving food security in subsistence and smallholder agricultural systems. The scope of the book is both local and multi-scalar. The gendered resilience framework, illustrated here with detailed case studies from semi-arid Kenya, is shown to be suitable for use in analysis in other geographic regions and across disciplines. The book examines the importance of gender equity to the strengthening of socio-ecological resilience. Case studies reflect multidisciplinary perspectives and focus on a range of issues, from microfinance to informal seed systems. The book's gender perspective also incorporates consideration of age or generational relations and cultural dimensions in order to embrace the complexity of existing socio-economic realities in rural farming communities. The issue of succession of farmland has become a general concern, both to farmers and to researchers focused on building resilient farming systems. Building resilience here is shown to involve strengthening households'and communities'overall livelihood capabilities in the face of ongoing climate change, global market volatility and political instability.

Published

2016

5. Food Security, Gender and Resilience

Author

Gordon M. Hickey, Esther M. Njuguna, Bernard Pelletier, Lutta Muhammad, Kimberly L. Bothi, and Leigh Brownhill

Subjects

Food security, Natural resource economics, Subsistence agriculture, Business, Resilience (network)

Published

2016