Your search keyword '"Ryan Calderon"' showing total 4 results

1. A feasibility study evaluating a reservoir storage system for continuous oxygen delivery for children with hypoxemia in Kenya

Author

Akos Somoskovi, Christine Bachman, Derek Bell, Michael Hawkes, Dickson Otiangala, Bernard Olayo, Ryan Calderon, Daniel E. Lieberman, Ella M E Forgie, Chin Hei Ng, Steve Adudans, and Nicholas O. Agai

Subjects

Male, Pulmonary and Respiratory Medicine, Medication Systems, Hospital, medicine.medical_specialty, Global health, Pilot Projects, Article, Simulated patient, Hypoxemia, 03 medical and health sciences, 0302 clinical medicine, Electricity, 030225 pediatrics, Reservoir storage, Humans, Medicine, Hypoxia, Developing Countries, Equipment and Supplies, Hospital, lcsh:RC705-779, Continuous flow, business.industry, Infant, Pneumonia, lcsh:Diseases of the respiratory system, Kenya, Preclinical data, Oxygen, 030228 respiratory system, Child, Preschool, Africa, Emergency medicine, Oxygen delivery, Feasibility Studies, Health Resources, Female, Observational study, medicine.symptom, business, User feedback

Abstract

Background Supplemental oxygen is an essential treatment for childhood pneumonia but is often unavailable in low-resource settings or unreliable due to frequent and long-lasting power outages. We present a novel medium pressure reservoir (MPR) which delivers continuous oxygen to pediatric patients through power outages. Methods An observational case series pilot study assessing the capacity, efficacy and user appraisal of a novel MPR device for use in low-resource pediatric wards. We designed and tested a MPR in a controlled preclinical setting, established feasibility of the device in two rural Kenyan hospitals, and sought user feedback and satisfaction using a standardized questionnaire. Results Preclinical data showed that the MPR was capable of bridging power outages and delivering a continuous flow of oxygen to a simulated patient. The MPR was then deployed for clinical testing in nine pediatric patients at Ahero and Suba Hospitals. Power was unavailable for 2% of the total time observed due to 11 power outages (median 4.6 min, IQR 3.6–13.0 min) that occurred during treatment with the MPR. Oxygen flowrates remained constant across all 11 power outages. Feedback on the MPR was uniformly positive; all respondents indicated that the MPR was easy to use and provided clinically significant help to their patients. Conclusion We present a MPR oxygen delivery device that has the potential to mitigate power insecurity and improve the standard of care for hypoxemic pediatric patients in resource-limited settings.

Published

2021

2. Oxygen insecurity and mortality in resource-constrained healthcare facilities in rural Kenya

Author

Derek Bell, Daniel E. Lieberman, Michael Hawkes, Dickson Otiangala, Nicholas O. Agai, Ella M E Forgie, Akos Somoskovi, Bernard Olayo, Christine Bachman, Steve Adudans, Chin Hei Ng, and Ryan Calderon

Subjects

Pulmonary and Respiratory Medicine, Rural Population, medicine.medical_specialty, Adolescent, Oxygen concentrator, chemistry.chemical_element, Oxygen, Hypoxemia, 03 medical and health sciences, 0302 clinical medicine, Interquartile range, 030225 pediatrics, Health care, Case fatality rate, medicine, Humans, Child, Hypoxia, Oxygen saturation (medicine), Cause of death, business.industry, Infant, Reproducibility of Results, Pneumonia, Kenya, Cross-Sectional Studies, 030228 respiratory system, chemistry, Research Design, Pediatrics, Perinatology and Child Health, Emergency medicine, Health Resources, Health Facilities, medicine.symptom, business

Abstract

Introduction Pneumonia is the leading cause of death globally in children. Supplemental oxygen reduces mortality but is not available in many low-resource settings. Inadequate power supply to drive oxygen concentrators is a major contributor to this failure. The objectives of our study were to (a) assess the availability of therapeutic oxygen; (b) evaluate the reliability of the electrical supply; and (c) investigate the effects of suboptimal oxygen delivery on patient outcomes in selected healthcare facilities in rural Kenya. Materials and methods A cross-sectional descriptive study on oxygen availability and descriptive case series of Kenyan children and youth hospitalized with hypoxemia. Results Two of 11 facilities had no oxygen equipment and nine facilities had at least one concentrator or cylinder. Facilities had a median of seven power interruptions per week (range: 2-147). The median duration of the power outage was 17 minutes and the longest was more than 6 days. The median proportion of time without power was out 7% (range: 1%-58%). Fifty-seven patients hospitalized with hypoxemia (median oxygen saturation 85% [interquartile range {IQR}: 82-87]) were included in our case series. Patients received supplemental oxygen for a median duration of 4.6 hours (IQR: 3.0-7.8). Eighteen patients (32%) faced an oxygen interruption of the median duration of 11 minutes (IQR: 9-20). A back-up cylinder was used in 5/18 (28%) cases. The case fatality rate was 11/57 (19%). Conclusion Mortality due to hypoxemia remains unacceptably high in low-resource healthcare facilities and may be associated with oxygen insecurity, related to lack of equipment and/or reliable power.

Published

2019

3. Development of a low cost SWIR spectrometer for low resource settings (Conference Presentation)

Author

James W. Stafford, Ryan Calderon, Matthew D. Keller, Benjamin K. Wilson, and Wenbo Wang

Subjects

Microelectromechanical systems, Spectrometer, Computer science, business.industry, media_common.quotation_subject, Near-infrared spectroscopy, Chip, Field (computer science), Presentation, Electronics, business, Mobile device, Computer hardware, media_common

Abstract

Optical spectroscopic devices have historically been too expensive or not portable enough to take full advantage of their abilities to offer real-time, on-site, objective results, especially in the developing world. Recent advancements toward smaller and cheaper hardware, especially in the visible and near infrared (NIR) ranges, could enable widespread use in low resource settings, down to a rural health clinic or at the individual farm level. We recently designed and tested a spectroscopic device with these goals in mind. It is based on an initial commercial version of a low cost MEMS spectral detection chip operating in the NIR, or more properly short wave infrared (SWIR) region. Custom optics, electronics, and mechanical designs were created to produce a complete handheld system capable of operation in the lab or in the field. Initial lab testing indicated excellent reproducibility both within and between five different devices. We have verified desired performance (e.g. acceptable signal to noise for target integration times, spectral features equivalent to lab-grade devices, etc.) for applications including pharmaceutical analysis and for analyzing multiple agricultural materials, including soils, plants, fertilizers, and manures. We have also developed a custom mobile app to accompany the devices in upcoming field testing, which will validate their performance in realistic settings in sub-Saharan Africa.

Published

2019

4. Assessment of a storage system to deliver uninterrupted therapeutic oxygen during power outages in resource-limited settings

Author

Kuiper Mark K, Ryan Calderon, Harriet Nambuya, Nicholas Wangwe, Daniel E. Lieberman, Akos Somoskovi, and Melissa C. Morgan

Subjects

Pulmonology, Computer science, Oxygen concentrator, Oxygen, Tertiary Care Centers, 0302 clinical medicine, Electricity, Medicine and Health Sciences, Uganda, 030212 general & internal medicine, Power grid, Equipment and Supplies, Hospital, Flow Rate, Multidisciplinary, Physics, Classical Mechanics, Power (physics), Chemistry, Computer data storage, Physical Sciences, Photovoltaic Power, Health Resources, Engineering and Technology, Medicine, Alternative Energy, Anatomy, Research Article, Chemical Elements, Medication Systems, Hospital, Drug Storage, Bladder, Science, chemistry.chemical_element, Fluid Mechanics, Continuum Mechanics, 03 medical and health sciences, 030225 pediatrics, Pressure, Humans, Prototypes, Operations management, Developing Countries, business.industry, Reproducibility of Results, Biology and Life Sciences, Fluid Dynamics, Pneumonia, Renal System, Clinical trial, Energy and Power, Technical feasibility, Technology Development, chemistry, Feasibility Studies, Emergencies, business, Limited resources, High Pressure

Abstract

Access to therapeutic oxygen remains a challenge in the effort to reduce pneumonia mortality among children in low- and middle-income countries. The use of oxygen concentrators is common, but their effectiveness in delivering uninterrupted oxygen is gated by reliability of the power grid. Often cylinders are employed to provide continuous coverage, but these can present other logistical challenges. In this study, we examined the use of a novel, low-pressure oxygen storage system to capture excess oxygen from a concentrator to be delivered to patients during an outage. A prototype was built and tested in a non-clinical trial in Jinja, Uganda. The trial was carried out at Jinja Regional Referral Hospital over a 75-day period. The flow rate of the unit was adjusted once per week between 0.5 and 5 liters per minute. Over the trial period, 1284 power failure episodes with a mean duration of 3.1 minutes (range 0.08 to 1720 minutes) were recorded. The low-pressure system was able to deliver oxygen over 56% of the 4,295 power outage minutes and cover over 99% of power outage events over the course of the study. These results demonstrate the technical feasibility of a method to extend oxygen availability and provide a basis for clinical trials.

Published

2019