Global health, global surgery and mass casualties: II. Mass casualty centre resources, equipment and implementation

LATEST ARTICLES
SEARCH INDEX
SUGGEST ARTICLE
THE OSI COLLECTIONS
ABOUT THE OSI

OSI STATISTICS

Total abstracts indexed:
536
Audio abstracts:
101
Open access articles:
476
Pending review:
115
Annotations added:
2
Countries represented:
91
No. of contributors:
10
Bookmarks made:
12
Specialities covered:
19

Global health, global surgery and mass casualties: II. Mass casualty centre resources, equipment and implementation


JournalBMJ Global Health
Publication date – Jan – 2020
Authors – Sergio Aguilera, Leonidas Quintana, Tariq Khan, Roxanna Garcia5, Haitham Shoman, Luke Caddell, Rifat Latifi, Kee B Park, Patricia Garcia, Robert Dempsey, Jeffrey V Rosenfeld, Corey Scurlock, Nigel Crisp, Lubna Samad, Montray Smith, Laura Lippa, Rashid Jooma, Russell J Andrews
Keywordsdisaster response resources; global surgery; integrated healthcare; national healthcare plans; resilient/mobile healthcare facilities; telemedicine and drones.
Open access – Yes
SpecialityEmergency surgery, Trauma surgery
World region South America, Southern Asia
Country: Chile, Pakistan
Language – English
Submitted to the One Surgery Index on May 8, 2020 at 9:36 am
Abstract:

Trauma/stroke centres optimise acute 24/7/365 surgical/critical care in high-income countries (HICs). Concepts from low-income and middle-income countries (LMICs) offer additional cost-effective healthcare strategies for limited-resource settings when combined with the trauma/stroke centre concept. Mass casualty centres (MCCs) integrate resources for both routine and emergency care—from prevention to acute care to rehabilitation. Integration of the various healthcare systems—governmental, non-governmental and military—is key to avoid both duplication and gaps. With input from LMIC and HIC personnel of various backgrounds—trauma and subspecialty surgery, nursing, information technology and telemedicine, and healthcare administration—creative solutions to the challenges of expanding care (both daily and disaster) are developed. MCCs are evolving initially in Chile and Pakistan. Technologies for cost-effective healthcare in LMICs include smartphone apps (enhance prehospital care) to electronic data collection and analysis (quality improvement) to telemedicine and drones/robots (support of remote regions and resource optimisation during both daily care and disasters) to resilient, mobile medical/surgical facilities (eg, battery-operated CT scanners). The co-ordination of personnel (within LMICs, and between LMICs and HICs) and the integration of cost-effective advanced technology are features of MCCs. Providing quality, cost-effective care 24/7/365 to the 5 billion who lack it presently makes MCCs an appealing means to achieve the healthcare-related United Nations Sustainable Development Goals for 2030.

OSI Number – 20315
PMID – 32133170

Public annotations on this article:
No public annotations yet