JOSCM | Journal of Operations and Supply Chain Management - Volume 9 number 1 - January/June 2016
In this issue of Journal of Operations and Supply Chain Management you will be able to read and enjoy the outcomes of our special issue on Crisis Management and Humanitarian Operations edited by Maria Besiou, from Kuehne Logistics University (Germany) and Susana Pereira, from FGV/EAESP (Brazil).
The guest editors selected for us five papers that cover different dimensions of this important topic, which is increasingly attracting attention of the operations and supply chain management community. Three papers cover logistics aspects of humanitarian logistics and crisis management. Naor and Bernardes (2016) focus on self-sufficient healthcare logistic systems and their responsiveness, while de Leeuw (2016) offers an empirical analysis of humanitarian warehouse locations. Sokat, Zhao, Dolinskaya, Smilowitz, and Chan (2016), on their turn, explored how to capture real-time data in disaster response logistics. The other two papers turn their attention softer aspects of humanitarian logistics and crisis management. De Oliveira, Fontainha, and Leiras (2016) study the role of private stakeholders in disaster operations and Santos (2016) brings important insights on the leadership process during an organizational crisis.
Besides the papers of the special issue, this semester, JOSCM also presents to you two papers from our continuous flow, which tackle different aspects of supply chain management. Widyarini, Simatuoang, and Engelseth (2016) point out the role of social interactions for price transmission in multi-tier food supply chains. Finally, Ferragi (2016) uses the Ethanol industry to develop a SCMap and integrate the supply and production chain concepts.
For more information on this issue, visit the FGV Library System: http://bit.ly/2l3ELgc
PROPOSING WEB BASED EMERGENCY APPLICATION (CASE STUDY IN EGYPT) ijwmn
A significant burden of diseases in developing countries is brought by time-sensitive illnesses and injuries,
such as severe infections, dehydration caused by diarrhoea, postpartum bleeding, and acute myocardial
infarction. The provision of timely treatment during life-threatening emergencies should be a priority for
many health systems in developing countries. Medical emergencies are time sensitive, because the longer
the time that elapses before recognition and treatment, the greater the likelihood of morbidity, mortality or
disability. Accessing emergency medical care should therefore be made easy. Delays in accessing care can
be reduced through transportation. Systems for transporting patients with medical emergencies to health
care facilities are essential. This paper designates the need to develop emergency application for access to
nearest emergency care that indicates the regional referral transportation facilities.
To Establish Evacuation Decision-Making Selection Modes of Aboriginal Tribes ...IJERA Editor
In this study I try to utilize the concepts of ―environmental vulnerability‖ and ―evacuation behaviors among minority groups‖ and apply the evacuation selection mode generated from the public hazard perception to geographic information system, and analyze movement paths of residents during after disaster by using composite technology so that I can modify the suggested service scope and capacity of evacuation sites in the regions investigated in this study and provide minority groups with optimal selection mode.
PROPOSING WEB BASED EMERGENCY APPLICATION (CASE STUDY IN EGYPT) ijwmn
A significant burden of diseases in developing countries is brought by time-sensitive illnesses and injuries,
such as severe infections, dehydration caused by diarrhoea, postpartum bleeding, and acute myocardial
infarction. The provision of timely treatment during life-threatening emergencies should be a priority for
many health systems in developing countries. Medical emergencies are time sensitive, because the longer
the time that elapses before recognition and treatment, the greater the likelihood of morbidity, mortality or
disability. Accessing emergency medical care should therefore be made easy. Delays in accessing care can
be reduced through transportation. Systems for transporting patients with medical emergencies to health
care facilities are essential. This paper designates the need to develop emergency application for access to
nearest emergency care that indicates the regional referral transportation facilities.
To Establish Evacuation Decision-Making Selection Modes of Aboriginal Tribes ...IJERA Editor
In this study I try to utilize the concepts of ―environmental vulnerability‖ and ―evacuation behaviors among minority groups‖ and apply the evacuation selection mode generated from the public hazard perception to geographic information system, and analyze movement paths of residents during after disaster by using composite technology so that I can modify the suggested service scope and capacity of evacuation sites in the regions investigated in this study and provide minority groups with optimal selection mode.
JOSCM | Journal of Operations and Supply Chain Management - Volume 9 number 2 - July/December 2016
In this issue of Journal of Operations and Supply Chain Management we present to you five papers that cover different areas of our field. Shashi et al. (2016) explore the key success factors to manage sustainable cold supply chains. Still in the SCM field, Handayati et al. (2016) use agent-based simulation to understand contracting issues. Martins et al. (2016), in their turn, analyze intermodal terminals in Brazil and point interesting ways of improving them, considering shippers’ points of view. Devangan (2016) also explores logistic issues by look for ways to optimize the allocation of warehouses, taking into account production and distribution aspects. Finally, Rajashekharaiah (2016) recoups a recurrent and important theme in the operations management field – the use of six sigma techniques to improve process capability.
For more information on this issue, visit the FGV Library System: http://bit.ly/2livcwo
Effects of Supply Chain Management Practices On The Performance Of Banks In K...Editor IJCATR
The paper examines the adoption of the Supply Chain Management practices on the performance
of Banks in Kenya. This research conceptualizes and develops four dimensions of SCM practice
(outsourcing of goods & services, information & communication technology, strategic supplier
partnership, and globalization) and tests the relationships between SCM practices, and
organizational performance. The study employed descriptive design. Data for the study was
collected using a self-administered questionnaire procedure, where the questionnaires were
administered to the selected respondents through drop and pick later technique. A sample size of
33 respondents was drawn from the sample frame using simple stratified random sampling
technique to promote the needs for efficiency and representativeness from various branches and
outlets of Postbank as an organization in Nairobi County and the relationships proposed in the
framework was tested using Chi-square, T-test among other statistical tools. Data was analyzed
by aid of Statistical Package for Social Sciences (SPSS). The study will be useful in the academic
circles as it will contribute immensely towards filling the gaps in knowledge in the area of service
industry. The study found that outsourcing was important to the banks only when the appropriate
methods are employed. It also found that ICT had a major role in determining the performance of
banks as it dictated the mode of transaction and data they displayed to clients. Strategic
partnership was also important based on what it intended to achieve in enhancing the performance
of banks. Lastly, globalization is equally vital as it increases competition and exposes local banks
to global scene to experience how performance of banks can be improved. The study recommends
that correct ICT methods should be applied to promote the competitiveness of banks and improve
performance. Also it recommends that outsourcing be done only if they promote the objectives and
goals of the banking institute.
JOSCM | Journal of Operations and Supply Chain Management - Volume 8 number 2 - July/December 2015
This issue of Journal of Operations and Supply Chain Management counts with eight papers that focus on strategic, tactical and operational aspects of supply chain management.
The paper from Nyaoga, Magutu and Aduda (2015) explores the link between supply chain strategies and firm performance. Based on data from 627 companies, the authors show that supply chain strategies account for a significant share of firms´ performance; reinforcing that companies should investments in supply chain practices. Radanliev (2015), in its turn, develops a framework based on the supply chain architecture, design, and engineering literature that offers guidelines on how practitioners can decompose and build a green-field (new and non-existent) supply chain. We also have three papers on specific supply chain strategies. Pereira and Silva (2015) and Bradaschia and Pereira (2015), for instance, explore the concept of supply chain resilience and its antecedents. With the use of case studies, the former shows how the management of buyer and supplier interfaces, of risk, and of knowledge can enhance resilience in a supply chain while the latter adds that flexibility is also a vital enabler of supply chain resilience. Ferreira, Bertan and Pimenta (2015) then show the importance of inter-organizational integration to achieve the outcomes expected by companies.
This volume also counts with papers focused on logistic services, transportation, and inventory management - key decision areas in supply chain management. Liane Okdinawati, Simatupang and Sunitiyoso (2015) review the literature on collaborative transportation management and suggest areas for future research in the field and Yang (2015) provides an overview of the third-party logistics providers in the United States for investigating how the industry has evolved to meets customers' needs in an environment marked by global supply chains. Finally, this issue has a technical note on a stochastic two-echelon model to solve the petrol station replenishment problem. This model offers insights on how firms can devise a replenishment policy to minimize inventory costs, in the long run, given the demand pattern.
For more information on this issue, visit the FGV Library System: http://bit.ly/2livlzW
DESIGN AND DEVELOPMENT OF SPECIAL PURPOSE MACHINE USING HYDROPNEUMATIC CYLIND...IAEME Publication
Piercing is a type of shearing operation which creates a open hole in sheet metal
by separating interior section. The removed metal is discarded as strap. In general
piercing operation is done in mechanical presses using piercing tool. Piercing tools
are developed with indexing method by piercing 1 or 2 holes at a time. To do 4 holes
the tool is allowed to do first hole and then the first hole is located to do piercing of
other holes. This special purpose machine using hydro pneumatic cylinders to pierce 4
holes and 2 holes at a time in a square tube. The productivity and quality of the work
is increased by this machine. The use of Special Purpose Machines minimizes
Possibility of Human Errors. These machines are Designed to Operate Continuously
for 24 hours a day, with Minimum Supervision
India’s unique geoclimatic
conditions make it vulnerable to natural disasters
like flood, drought, cyclone, earthquake, and epidemics/pandemics (latest being
Influenza ‘A’ or H1N1) leading to sizable number of human casualties. To elucidate
the mass casualty potential of natural disasters in the last one decade, the Orissa
Super Cyclone (October 1999) caused more than 9,000 deaths; the Bhuj earthquake
(January 2001) resulted in 14,000 deaths while the Tsunami (December 2004)
accounted for the death of nearly 15,000 victims. The dimensions of modernization
and industrialization’s are manmade
disasters such as road/rail/air accidents, fire,
and stampede having also mass casualty potential; new dimension being Chemical,
Biological, Radiological and Nuclear (CBRN) disaster occurring accidentally or
caused by terrorism activities. The deaths due to manmade
disasters during the
period 2001–03 were nearly 12 times higher than those caused by natural calamities.
Consequently, disasters result in large number of deaths, both human and animal, in
a short span of time that place overwhelming stress on individuals, society and the
administration with an uncommon challenge of handling large numbers of survivors
seeking medical attention due to the effects of the hazard(s).
Course Textbook Fagel, M. J. (2011). Principles of emergency manag.docxmercylittle80626
Course Textbook : Fagel, M. J. (2011). Principles of emergency management and emergency operations centers (EOC). Boca Raton, FL: CRC Press.
Read one of the articles from the Suggested Reading list. (Below)
Write a two-page essay of 500 words in APA style. You are the leader of the Emergency Planning Team for New Orleans prior to Hurricane Katrina.
1. Identify a risk and choose a physical asset or social group(s) that is vulnerable to the risk.
2. Determine the priorities for physical protection. MSE 5301, Interagency Disaster Management
3. Analyze and develop a mitigation or preparedness strategy to protect or reduce the vulnerability of the physical asset or social group(s). See pages 38-54 of the textbook, “Outline of Risk Management Steps” for assistance. All sources used, including the textbook, must be referenced; paraphrased and quoted material must have accompanying citations.
After the emergency planning team is selected and the potential hazards for the area are identified and assessed, the next step is to gather demographic data on the population within the areas of known hazards. Some hazards are limited to a specific area while others can affect an entire city, county, or township. Software technology is available to the planning team that will assist to pinpoint the approximate perimeters for known hazards. This discussion will expand the knowledge of a planning team to further assess the populations within the vulnerable areas of a potential or known hazard. Eisenman, Cordasco, Asch, Golden, and Glik (2007) conducted a random study of 1,182 adult evacuees from New Orleans that were transported to Houston after Hurricane Katrina. These evacuees stayed in three evacuation centers in Houston and were predominantly poor African Americans from the most severely affected areas from the hurricane. The information obtained from the research study will assist the emergency planning team to identify obstacles that inhibit vulnerable and minority populations from evacuation and develop education programs and alternatives to minimize obstacles. First, the emergency plan should identify numerous shelters within the demographic area where friends and families can evacuate. These shelters are pre-stocked with water, food, cots, and blankets. Restrooms are available with sufficient supplies. It is important to determine the number of shelters that are needed for the approximate number of people within the affected area to prevent overcrowding. Security is also a UNIT II STUDY GUIDE Assessing Vulnerabilities and Developing a Planning Team MSE 5301, Interagency Disaster Management 2 consideration. Non-governmental organizations such as the Red Cross, Salvation Army, and local churches are important stakeholders in planning for evacuation shelters. Evacuation shelters should also provide kennels for pets as some pet owners will not evacuate without their pets (Eisenman et al., 2007). Second, transportation for evacuees to shelters i.
Patton Describe one evidence-based strategy for leading emergenc.docxssuser562afc1
Patton
Describe one evidence-based strategy for leading emergency preparedness.
The global COVID-19 pandemic presented specific challenges to several areas worldwide, including hot spots like New York City, which suffered over 22 000 deaths. As a result, new innovative strategies were created to include resource allocation of emergency workers. Specialty providers from other practice settings such as Neurosurgery, Radiology, Bariatric surgery, and General surgery were deployed to work at alternative sites, including mobile field hospitals. It is important to note that the deployed staff received the appropriate onboarding/training. Their practices received ongoing support and services, including telemedicine, to stay connected with their patients during their absence (Amos, et al., 2020). During a disaster, it is critical to the mission to determine the right resources are being used to ensure safety and mitigate further sentinel events.
Identify one evidence-based strategy for shaping healthcare system outcomes in a disaster.
Hanefeld et al. (2018) wrote people respond in different ways to disasters, and the sudden shock and response can determine the outcomes. One of the best strategies for shaping healthcare system outcomes in a disaster is to build a level of resistance from what individuals have learned from a previous crisis. It is integral to understand the overall capacity and abilities a system has in place to respond. For instance, the financial, political, information, and planning systems can independently influence if the response to the disaster is a success or not (Hanefeld, 2018). Building resistance can be achieved when each healthcare system strives to use each crisis as an opportunity to improve their responses in preparation for future disasters.
Examine the disaster risks for your local community. Identify two priority concerns. Describe the significance of these issues of concern.
The two disaster risks identified for the state of Alaska are earthquakes plus extreme cold and blizzards. According to the University of Alaska (2021), Alaska experiences over 20,000 earthquakes annually, more than any other state. It is estimated that an earthquake with a magnitude of 7 to 8 occurs yearly and 8+ on average every 13 years. The significant damage that can happen is costly due to poor infrastructure in some areas-especially remote villages. When there is an earthquake, tsunamis can be a concern depending on the time of the year and if people live near the coastline, which many do for sustenance purposes. Another disaster risk for Alaska is the long and harsh winters that create hazardous conditions such as white-out road conditions and avalanches. Unprepared people can be stuck for hours to days before help arrives and suffer frostbite, loss of limb, and possibly loss of life.
Identify one professional organization active in emergency preparedness or disaster response. Describe the services provided.
The American Red Cr.
This is my Grand Rounds for Nationwide Children's Hospital on 9/11/14 at 8am. This talk gives the background of National and Regional Preparedness in Columbus, OH post 9/11.
Background: The frequency and intensity of both natural and man-made disasters have increased substantially over the past few decades. Consequences include great suffering, massive mortality, enormous economic losses, environmental damage and lasting psychological disorders of the survivors. For this reason, community members and government agencies have high expectations regarding the quality of medical care provided during a disaster response. Disaster medicine covers all aspects of disaster response including: disaster management systems, triage, epidemiology and infectious diseases prevention and psychological management.
Objective: This study aims to asses familiarity of students of the University of Medicine/ Faculty of Technical Medical sciences with disaster medicine concepts, evaluate training needs and define the preferred teaching method. It is a cross-sectional study of 100 students selected at random. A self administered structured questionnaire was distributed to the students containing questions regarding triage categories, first aid steps, trauma treatment, biological and chemical weapons, procedures to follow in specific disasters and preferred learning method.
JOSCM | Journal of Operations and Supply Chain Management - Volume 9 number 2 - July/December 2016
In this issue of Journal of Operations and Supply Chain Management we present to you five papers that cover different areas of our field. Shashi et al. (2016) explore the key success factors to manage sustainable cold supply chains. Still in the SCM field, Handayati et al. (2016) use agent-based simulation to understand contracting issues. Martins et al. (2016), in their turn, analyze intermodal terminals in Brazil and point interesting ways of improving them, considering shippers’ points of view. Devangan (2016) also explores logistic issues by look for ways to optimize the allocation of warehouses, taking into account production and distribution aspects. Finally, Rajashekharaiah (2016) recoups a recurrent and important theme in the operations management field – the use of six sigma techniques to improve process capability.
For more information on this issue, visit the FGV Library System: http://bit.ly/2livcwo
Effects of Supply Chain Management Practices On The Performance Of Banks In K...Editor IJCATR
The paper examines the adoption of the Supply Chain Management practices on the performance
of Banks in Kenya. This research conceptualizes and develops four dimensions of SCM practice
(outsourcing of goods & services, information & communication technology, strategic supplier
partnership, and globalization) and tests the relationships between SCM practices, and
organizational performance. The study employed descriptive design. Data for the study was
collected using a self-administered questionnaire procedure, where the questionnaires were
administered to the selected respondents through drop and pick later technique. A sample size of
33 respondents was drawn from the sample frame using simple stratified random sampling
technique to promote the needs for efficiency and representativeness from various branches and
outlets of Postbank as an organization in Nairobi County and the relationships proposed in the
framework was tested using Chi-square, T-test among other statistical tools. Data was analyzed
by aid of Statistical Package for Social Sciences (SPSS). The study will be useful in the academic
circles as it will contribute immensely towards filling the gaps in knowledge in the area of service
industry. The study found that outsourcing was important to the banks only when the appropriate
methods are employed. It also found that ICT had a major role in determining the performance of
banks as it dictated the mode of transaction and data they displayed to clients. Strategic
partnership was also important based on what it intended to achieve in enhancing the performance
of banks. Lastly, globalization is equally vital as it increases competition and exposes local banks
to global scene to experience how performance of banks can be improved. The study recommends
that correct ICT methods should be applied to promote the competitiveness of banks and improve
performance. Also it recommends that outsourcing be done only if they promote the objectives and
goals of the banking institute.
JOSCM | Journal of Operations and Supply Chain Management - Volume 8 number 2 - July/December 2015
This issue of Journal of Operations and Supply Chain Management counts with eight papers that focus on strategic, tactical and operational aspects of supply chain management.
The paper from Nyaoga, Magutu and Aduda (2015) explores the link between supply chain strategies and firm performance. Based on data from 627 companies, the authors show that supply chain strategies account for a significant share of firms´ performance; reinforcing that companies should investments in supply chain practices. Radanliev (2015), in its turn, develops a framework based on the supply chain architecture, design, and engineering literature that offers guidelines on how practitioners can decompose and build a green-field (new and non-existent) supply chain. We also have three papers on specific supply chain strategies. Pereira and Silva (2015) and Bradaschia and Pereira (2015), for instance, explore the concept of supply chain resilience and its antecedents. With the use of case studies, the former shows how the management of buyer and supplier interfaces, of risk, and of knowledge can enhance resilience in a supply chain while the latter adds that flexibility is also a vital enabler of supply chain resilience. Ferreira, Bertan and Pimenta (2015) then show the importance of inter-organizational integration to achieve the outcomes expected by companies.
This volume also counts with papers focused on logistic services, transportation, and inventory management - key decision areas in supply chain management. Liane Okdinawati, Simatupang and Sunitiyoso (2015) review the literature on collaborative transportation management and suggest areas for future research in the field and Yang (2015) provides an overview of the third-party logistics providers in the United States for investigating how the industry has evolved to meets customers' needs in an environment marked by global supply chains. Finally, this issue has a technical note on a stochastic two-echelon model to solve the petrol station replenishment problem. This model offers insights on how firms can devise a replenishment policy to minimize inventory costs, in the long run, given the demand pattern.
For more information on this issue, visit the FGV Library System: http://bit.ly/2livlzW
DESIGN AND DEVELOPMENT OF SPECIAL PURPOSE MACHINE USING HYDROPNEUMATIC CYLIND...IAEME Publication
Piercing is a type of shearing operation which creates a open hole in sheet metal
by separating interior section. The removed metal is discarded as strap. In general
piercing operation is done in mechanical presses using piercing tool. Piercing tools
are developed with indexing method by piercing 1 or 2 holes at a time. To do 4 holes
the tool is allowed to do first hole and then the first hole is located to do piercing of
other holes. This special purpose machine using hydro pneumatic cylinders to pierce 4
holes and 2 holes at a time in a square tube. The productivity and quality of the work
is increased by this machine. The use of Special Purpose Machines minimizes
Possibility of Human Errors. These machines are Designed to Operate Continuously
for 24 hours a day, with Minimum Supervision
India’s unique geoclimatic
conditions make it vulnerable to natural disasters
like flood, drought, cyclone, earthquake, and epidemics/pandemics (latest being
Influenza ‘A’ or H1N1) leading to sizable number of human casualties. To elucidate
the mass casualty potential of natural disasters in the last one decade, the Orissa
Super Cyclone (October 1999) caused more than 9,000 deaths; the Bhuj earthquake
(January 2001) resulted in 14,000 deaths while the Tsunami (December 2004)
accounted for the death of nearly 15,000 victims. The dimensions of modernization
and industrialization’s are manmade
disasters such as road/rail/air accidents, fire,
and stampede having also mass casualty potential; new dimension being Chemical,
Biological, Radiological and Nuclear (CBRN) disaster occurring accidentally or
caused by terrorism activities. The deaths due to manmade
disasters during the
period 2001–03 were nearly 12 times higher than those caused by natural calamities.
Consequently, disasters result in large number of deaths, both human and animal, in
a short span of time that place overwhelming stress on individuals, society and the
administration with an uncommon challenge of handling large numbers of survivors
seeking medical attention due to the effects of the hazard(s).
Course Textbook Fagel, M. J. (2011). Principles of emergency manag.docxmercylittle80626
Course Textbook : Fagel, M. J. (2011). Principles of emergency management and emergency operations centers (EOC). Boca Raton, FL: CRC Press.
Read one of the articles from the Suggested Reading list. (Below)
Write a two-page essay of 500 words in APA style. You are the leader of the Emergency Planning Team for New Orleans prior to Hurricane Katrina.
1. Identify a risk and choose a physical asset or social group(s) that is vulnerable to the risk.
2. Determine the priorities for physical protection. MSE 5301, Interagency Disaster Management
3. Analyze and develop a mitigation or preparedness strategy to protect or reduce the vulnerability of the physical asset or social group(s). See pages 38-54 of the textbook, “Outline of Risk Management Steps” for assistance. All sources used, including the textbook, must be referenced; paraphrased and quoted material must have accompanying citations.
After the emergency planning team is selected and the potential hazards for the area are identified and assessed, the next step is to gather demographic data on the population within the areas of known hazards. Some hazards are limited to a specific area while others can affect an entire city, county, or township. Software technology is available to the planning team that will assist to pinpoint the approximate perimeters for known hazards. This discussion will expand the knowledge of a planning team to further assess the populations within the vulnerable areas of a potential or known hazard. Eisenman, Cordasco, Asch, Golden, and Glik (2007) conducted a random study of 1,182 adult evacuees from New Orleans that were transported to Houston after Hurricane Katrina. These evacuees stayed in three evacuation centers in Houston and were predominantly poor African Americans from the most severely affected areas from the hurricane. The information obtained from the research study will assist the emergency planning team to identify obstacles that inhibit vulnerable and minority populations from evacuation and develop education programs and alternatives to minimize obstacles. First, the emergency plan should identify numerous shelters within the demographic area where friends and families can evacuate. These shelters are pre-stocked with water, food, cots, and blankets. Restrooms are available with sufficient supplies. It is important to determine the number of shelters that are needed for the approximate number of people within the affected area to prevent overcrowding. Security is also a UNIT II STUDY GUIDE Assessing Vulnerabilities and Developing a Planning Team MSE 5301, Interagency Disaster Management 2 consideration. Non-governmental organizations such as the Red Cross, Salvation Army, and local churches are important stakeholders in planning for evacuation shelters. Evacuation shelters should also provide kennels for pets as some pet owners will not evacuate without their pets (Eisenman et al., 2007). Second, transportation for evacuees to shelters i.
Patton Describe one evidence-based strategy for leading emergenc.docxssuser562afc1
Patton
Describe one evidence-based strategy for leading emergency preparedness.
The global COVID-19 pandemic presented specific challenges to several areas worldwide, including hot spots like New York City, which suffered over 22 000 deaths. As a result, new innovative strategies were created to include resource allocation of emergency workers. Specialty providers from other practice settings such as Neurosurgery, Radiology, Bariatric surgery, and General surgery were deployed to work at alternative sites, including mobile field hospitals. It is important to note that the deployed staff received the appropriate onboarding/training. Their practices received ongoing support and services, including telemedicine, to stay connected with their patients during their absence (Amos, et al., 2020). During a disaster, it is critical to the mission to determine the right resources are being used to ensure safety and mitigate further sentinel events.
Identify one evidence-based strategy for shaping healthcare system outcomes in a disaster.
Hanefeld et al. (2018) wrote people respond in different ways to disasters, and the sudden shock and response can determine the outcomes. One of the best strategies for shaping healthcare system outcomes in a disaster is to build a level of resistance from what individuals have learned from a previous crisis. It is integral to understand the overall capacity and abilities a system has in place to respond. For instance, the financial, political, information, and planning systems can independently influence if the response to the disaster is a success or not (Hanefeld, 2018). Building resistance can be achieved when each healthcare system strives to use each crisis as an opportunity to improve their responses in preparation for future disasters.
Examine the disaster risks for your local community. Identify two priority concerns. Describe the significance of these issues of concern.
The two disaster risks identified for the state of Alaska are earthquakes plus extreme cold and blizzards. According to the University of Alaska (2021), Alaska experiences over 20,000 earthquakes annually, more than any other state. It is estimated that an earthquake with a magnitude of 7 to 8 occurs yearly and 8+ on average every 13 years. The significant damage that can happen is costly due to poor infrastructure in some areas-especially remote villages. When there is an earthquake, tsunamis can be a concern depending on the time of the year and if people live near the coastline, which many do for sustenance purposes. Another disaster risk for Alaska is the long and harsh winters that create hazardous conditions such as white-out road conditions and avalanches. Unprepared people can be stuck for hours to days before help arrives and suffer frostbite, loss of limb, and possibly loss of life.
Identify one professional organization active in emergency preparedness or disaster response. Describe the services provided.
The American Red Cr.
This is my Grand Rounds for Nationwide Children's Hospital on 9/11/14 at 8am. This talk gives the background of National and Regional Preparedness in Columbus, OH post 9/11.
Background: The frequency and intensity of both natural and man-made disasters have increased substantially over the past few decades. Consequences include great suffering, massive mortality, enormous economic losses, environmental damage and lasting psychological disorders of the survivors. For this reason, community members and government agencies have high expectations regarding the quality of medical care provided during a disaster response. Disaster medicine covers all aspects of disaster response including: disaster management systems, triage, epidemiology and infectious diseases prevention and psychological management.
Objective: This study aims to asses familiarity of students of the University of Medicine/ Faculty of Technical Medical sciences with disaster medicine concepts, evaluate training needs and define the preferred teaching method. It is a cross-sectional study of 100 students selected at random. A self administered structured questionnaire was distributed to the students containing questions regarding triage categories, first aid steps, trauma treatment, biological and chemical weapons, procedures to follow in specific disasters and preferred learning method.
Applied EpidemiologyOn September 11, 2001, terrorist attacksmallisonshavon
Applied Epidemiology
On September 11, 2001, terrorist attacks created a grave disaster that included the destruction of the World Trade Center in New York. The day after 9/11, epidemiologists were asked to assess the environment around Ground Zero for potential hazards that might put those engaged in rescue and recovery at risk of harm. Beside the dust, what toxins might be in the air? Was the air quality safe or should rescue workers wear canister respirators or particle masks? What other protections might be necessary in the days following the disaster?
In this Discussion, you will look at the impact of a disaster through the lens of an epidemiologist, addressing such questions as, “What epidemiological considerations arise in the wake of a disaster? And, what makes disaster planning or emergency preparedness effective in terms of mitigating or preventing negative aftereffects?”
To prepare:
Identify a disaster that led to a population health issue. Consider this disaster through the lens of an epidemiologist, using the information presented in the Learning Resources to examine the epidemiological considerations resulting from the disaster. Conduct additional research as necessary using the Walden Library and credible websites.
Ask yourself, “What factors made the community’s and/or nation’s response effective or ineffective? What aspects of disaster planning or emergency preparedness did the community have in place that helped it cope with the disaster and resulting population health issue?”
By tomorrow 05/08/2018 10 pm, write a minimum of 550 words in APA format with at least 3 scholarly references from the list of required readings below. Include the level one headings as numbered below”
Post
a cohesive scholarly response that addresses the following:
1) Identify the disaster and resulting population health issue.
2) Describe the epidemiological considerations resulting from this disaster. Support your response with specific examples and evidence from the literature.
3) Discuss the factors that made the community’s and/or nation’s response effective or ineffective.
Required Readings
Nash, D. B., Fabius, R. J., Skoufalos, A., Clarke, J.
L. & Horowitz, M. R. (2016). Population health: Creating a culture of wellness (2nd ed). Burlington, MA: Jones & Bartlett Learning.
Chapter 15, “Risk Management and Law”
This chapter discusses the role of the U.S. legal system to foster the health of populations with emphasis on the U.S. Supreme Court’s decision on the Patient Protection and Affordable Care Act.
Chapter 16, “Making the Case for Population Health Management: The Business Value of Better Health”
This chapter explores why good health is good business, the cost of good health and the potential provide to be realized when workforce health is improved.
Chapter 3, “Policy Implications for Population Health: Health Promotion and Wellness”
The chapter provides an overview o ...
Vulnerability is the degree to which a population, individual or organization is unable to anticipate, cope with, resist and recover from the impacts of disasters.
Environmental health in emergencies and disasters: a practical guide. (WHO, 2002)
Children, pregnant women, elderly people, malnourished people, and people who are ill or immune compromised, are particularly vulnerable when a disaster strikes, and take a relatively high share of the disease burden associated with emergencies. Poverty – and its common consequences such as malnutrition, homelessness, poor housing and destitution – is a major contributor to vulnerability.
Help to this group must be planned
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JOSCM - Journal of Operations and Supply Chain Management - n. 01 | Jan/Jun 2016
1.
2. SPECIAL ISSUE: Article invited
Self-Sufficient Healthcare Logistics Systems and
Responsiveness: Ten Cases of Foreign Field Hospitals
Deployed to Disaster Relief Supply Chains
Michael Naor
Professor at Georgetown University - Washington - DC, USA
mn633@georgetown.edu
Ednilson S. Bernardes
Professor at West Virginia University - Morgantown - West Virginia, USA
esbernardes@mail.wvu.edu
ABSTRACT: Recent disasters around the globe illustrate the unpredictability of their timing and the
severity of their impact, making aid operations highly uncertain and complex. The aftermath of sud-
den-impact disasters, such as civil conflicts, wars, and natural disasters, are typically characterized by
chaos and the urgent need for medical care for a massive number of casualties; however, damage to
local healthcare infrastructures usually render them unable to deliver needed services. Foreign field
hospitals, innovative self-sufficient emergency healthcare logistics systems deployed outside the hos-
pitals’ country, constitute a temporary solution until the local facilities are repaired or rebuilt. These
types of healthcare logistics system have been deployed with great success. However, not much is
known about factors that may account for their success in the supply chain literature. In this study,
we investigate military foreign field hospitals and explore general factors that may account for their
effectiveness. Specifically, we look into military healthcare logistics systems, specifically foreign field
hospitals (FFHs), to explore factors that may account for their responsiveness. We examine ten success-
ful deployments of an experienced and effective military FFH through an exploratory case analysis to
shed light into factors that may account for its success. Various propositions and avenues for future
research are developed.
Keywords: Flexibility, responsiveness, healthcare logistics, foreign field hospital, humanitarian aid.
Volume 9• Number 1 • January - June 2016 http:///dx.doi/10.12660/joscmv9n1p1-22
1
3. Naor, M., Bernardes, E. S.: Self-Sufficient Healthcare Logistics Systems and Responsiveness: Ten Cases of Foreign Field Hospitals Deployed to Disaster...
ISSN: 1984-3046 • Journal of Operations and Supply Chain Management Volume 9 Number 1 p 01 – 222
1. INTRODUCTION
The humanitarian aid efforts after a natural disas-
ter can significantly diminish social impact and suf-
fering (Tomasini & Wassenhove, 2009a), measured
in terms of the loss of life and property. Logistical
deficiencies of healthcare providers (DiAquoi, 2011;
Herron & Smith, 2011; McClintock, 2009) follow-
ing the tsunami in Asia in 2004, Hurricane Katrina
in 2005, the earthquake in Haiti in 2010, the chain
of disasters in Japan in 2011, and, most recently, the
typhoon in the Philippines in 2013 have brought to
public attention the need to establish effective hu-
manitarian operations designed to be responsive to
sudden-impact disasters. The source of disasters can
vary to include events such as earthquakes, tsunami
floods, typhoons, radioactive events, and humani-
tarian crises in war zones (Wassenhove, 2006). While
disasters can impact developing countries the hard-
est, the recent tsunami-related disaster in Japan ex-
emplifies the vulnerability of developed countries as
well. This natural event, in addition, shows that the
initial source of disaster can have a complex evolu-
tion (earthquake, tsunami, flood, and radiation).
Boin, Kelle, and Whybark (2010, p. 1) discuss the dif-
ferent challenges faced by humanitarian aid organi-
zations and observe that “practitioners have enjoyed
only limited help from academics.” Understanding
how humanitarian organizations design, imple-
ment, and manage their disaster relief efforts to de-
liver effective and efficient results will benefit the
supply chain operations body of knowledge (Gati-
gnon, Wassenhove, & Charles, 2010). One such little-
known organization in the supply chain literature
in general is the foreign field hospital (FFH). After a
large-scale disaster, the immediate survival of the af-
fected population is largely dependent on the quick
response of healthcare systems within the critical
first few days (Guha-Sapir & Panhuis, 2009). If the
home-country healthcare services are unable to cope
due to damage to hospitals, clinics, and facilities, or
to lack of expertise, then international medical aid
is essential. In such scenarios, the rapid deploy-
ment of foreign field hospitals can provide a tem-
porary solution to save lives (Redwood-Campbell,
2011). A field hospital is an independent emergency
healthcare facility which is deployed fast, typically
in sudden-onset disasters, and represents an inno-
vative and complex logistical system that involves
rapid shipment of remedies, diagnostic equipment,
nurses, physicians, interpreters, and the assembly of
needed medical facilities amid the rubble.
Among successful examples is the FFH deployment
of the International Federation of Red Cross and
Red Crescent Societies (IFRC), based out of Oslo and
owned by the Norwegian Red Cross, to Haiti after
the 2010 earthquake (Elsharkawi et al., 2010). It had
a 20-bed surgical facility with medical supplies, elec-
trical generator, and sanitation, along with vehicles.
The FFH was initially located in the main University
hospital compound at Port Au Prince and started ad-
mitting patients four days after the earthquake. The
outpatient ward treated about 75 patients daily. In
addition, the Red Cross facility engaged in epidemic
prevention measures. Another successful example is
the Miller School of Medicine at the University of
Miami Global Institute and the nonprofit organiza-
tion Project Medishare (UMGI/PM), which estab-
lished a FFH in Haiti. Due to their proximity to the
disaster area, the first medical team of five people ar-
rived only 20 hours after the earthquake (Ginzburg
et al., 2010). Overall, 425 severely injured survivors
were treated by the UMGI/PM field hospital during
its first week of the relief operation.
As the examples suggest, FFHs have been success-
fully used in the aftermath of disasters; however, we
know little about the factors that account for their
performance from the supply chain literature. As
such, we adopt an inductive grounded case study
approach to explore structural design factors that
may account for the effectiveness of such self-suffi-
cient healthcare logistics systems. In this study, we
investigate military foreign field hospitals, self-suf-
ficient healthcare logistics systems aimed at provid-
ing emergency health services in disaster sites. Past
literature suggests that responsiveness is critical in
the aftermath environment of sudden-impact disas-
ters (Guha-Sapit & Panhuis, 2009; Tomasini & Was-
senhove, 2009b). Therefore, we look into a military
healthcare logistics system (FFH) to explore poten-
tial design traits that fit the chaotic, complex, and
uncertain environment of healthcare disaster relief
(Drazin & Ven, 1985).
Specifically, we focus on a particular type of aid with-
in the “humanitarian assistance” category (Byman,
Lesser, Pirnie, Bernard, & Waxman, 2000): emer-
gency health services. While there are many types of
disasters (Day, Melnyk, Larson, Davis, & Whybark,
2012; Wassenhove, 2006) and response phases (Hea-
slip & Barber, 2014; Heaslip, Sharif, & Althonayan,
2012; Kovács & Spens, 2007), our primary focus is
on sudden-onset disasters in general. The case data
shows that a FFH achieves responsiveness by hav-
4. Naor, M., Bernardes, E. S.: Self-Sufficient Healthcare Logistics Systems and Responsiveness: Ten Cases of Foreign Field Hospitals Deployed to Disaster...
ISSN: 1984-3046 • Journal of Operations and Supply Chain Management Volume 9 Number 1 p 01 – 223
ing an organizational structure that confers it the re-
quired flexibility to fit the general characteristics of
the aftermath of sudden-impact disasters. The rest
of this study is organized as follows. First, we briefly
discuss humanitarian operations, foreign field hos-
pitals, and healthcare service responsiveness. Next,
we elaborate on the methodology used, followed by
the description of a series of ten case studies over
three decades. We then propose a set of propositions.
Finally, we conclude with the limitations and future
research opportunities that can further develop this
emerging field of study.
2. HUMANITARIAN OPERATIONS, HEALTH-
CARE DISASTER RESPONSIVENESS, AND
FFHS
An area that has gained prominence in practice and
research within disaster relief is the improvement
of the management of humanitarian aid (Diaz &
Tachizawa, 2015; Kovács & Spens, 2009). Humani-
tarian aid involves “the process and systems in mo-
bilizing people, resources, skills and knowledge to
help vulnerable people affected by disaster” (Was-
senhove, 2006). Tomasini and Wassenhove (2009a)
present three principles for disaster relief initiatives
accepted by most of the humanitarian organizations:
humanity, neutrality, and impartiality. The princi-
ples mean that the aid should be provided without
discrimination to the people in need and without
bias toward parties that could cause conflict in the
suffering countries.
Tomasini and Wassenhove (2009b) characterize ev-
ery humanitarian aid initiative as having ambigu-
ous objectives, limited resources, high uncertainty,
urgency, and a politicized environment. Balcik,
Beamon, Krejci, Muramatsu, and Ramirez (2010)
argue that the management of humanitarian aid is
difficult, because different types of organizations
are involved in the process, such as international
and local humanitarian relief organizations, local
governments, the military, and the private sector.
Each of these organizations has different structures,
capacities, and goals; thus, coordination among
these disparate partners is an important challenge
in the relief process (Stephenson & Schnitzer, 2006;
Tatham & Kovács, 2010). Some of the difficulties in
building an effective humanitarian aid network in-
volve identifying the need and accessing the dam-
aged area, the impact and level of influence of the
aid, funding, political relations, and security of the
aid force on site.
As the recent example provided by the disaster in
Japan illustrates, the timing and level of impact suf-
fered by areas in need of humanitarian aid pose high
uncertainty and complexity. In that instance, a chain
of natural disasters started with an 8.9 magnitude
earthquake, which caused a tsunami responsible for
damaging supposedly highly reliable nuclear fa-
cilities. As a result, an extensive area of the country
was exposed to damage from radiation as well as
structural failure from the earthquake and the cor-
responding tsunami. We see that, even though some
geographical zones may be known for their vulner-
ability to natural disasters, their timing, complexity,
and ensuing impact are difficult to predict. Impor-
tantly, the sources of sudden-onset disasters are not
only natural events but also man-made (Wassen-
hove, 2006); however, independent of the sources,
they are typified by the speed of onset. Therefore, a
responsive logistical system is of critical importance.
This performance characteristic fits Day et al.’s
(2012) argument that disaster relief supply chains
operate under conditions of extreme environmental
uncertainty and dynamism.
In these scenarios of uncertainty and dynamism,
the availability of emergency medical care in the
aftermath is critical; however, damage to the local
healthcare infrastructure usually renders it unable
to deliver needed healthcare services. One solution
to this problem is the dispatching of military foreign
field hospitals as a temporary solution to address
emergency medical needs until the affected country
is able to rebuild and repair its healthcare facilities.
Byman et al. (2000) categorize military disaster relief
supply chain operations missions into: a) humani-
tarian assistance, b) protection to humanitarian as-
sistance, c) assistance to refugees and displaced
persons, d) peace agreement enforcement, and e)
restoring order. Within these categories, prior re-
search indicates that the military has historically
cooperated horizontally with relief agencies – that
is, with other organizations at the same level within
the disaster relief supply chain – by coordinating
airlifts, sharing storage facilities, providing logistics
assets, providing information on infrastructure and
security, and setting up communications networks
(Balcik et al., 2010). Correspondingly, the literature
identifies the key military missions as establishing
a secure environment and aiding relief organiza-
tions, a mission that is fulfilled by providing assets
and capabilities and creating conditions to permit
the return of the disaster area to normality (Barber,
5. Naor, M., Bernardes, E. S.: Self-Sufficient Healthcare Logistics Systems and Responsiveness: Ten Cases of Foreign Field Hospitals Deployed to Disaster...
ISSN: 1984-3046 • Journal of Operations and Supply Chain Management Volume 9 Number 1 p 01 – 224
2012; Cross, 2014; Heaslip & Barber, 2014; Rietjens,
Voordijk, & Boer, 2007).
In this study, we focus on a particular type of aid
within the humanitarian assistance category (By-
man et al., 2000): emergency health services. While
there are many types of disasters (Day et al., 2012;
Kovács & Spens, 2007; Wassenhove, 2006) and re-
sponse phases (Heaslip & Barber, 2014; Heaslip et
al., 2012; Kovács & Spens, 2011), our primary focus
is on sudden-onset disasters in general. We exam-
ine a military healthcare logistics system to explore
potential structural design factors that fit the chaot-
ic, complex, dynamic, and turbulent environment
of healthcare disaster relief (Balcik et al., 2010; Day
et al., 2012; Drazin & Ven, 1985). These organiza-
tional environment characteristics are contingen-
cies or threats that typify the highly uncertain envi-
ronment of sudden-onset disasters in general (Day
et al., 2012).
A FFH is an independent healthcare facility, which
is deployed rapidly for emergency purposes, fol-
lowing the request of the affected country (World
Health Organization/Pan-American Health Organi-
zation [WHO/PAHO], 2003. The WHO/PAHO (2003)
defines a field hospital as “a mobile, self-contained,
self-sufficient healthcare facility capable of rapid
deployment and expansion or contraction to meet
emergency requirement for a specified period of
time.” In actuality, we can approach a foreign field
hospital as a self-sufficient emergency healthcare
logistics system rapidly deployed upon the request
of a country submitted to sudden-impact disaster.
The effectiveness of such logistics systems hinges
on their responsiveness to areas in which a disaster
has compromised the delivery of healthcare services
(Besiou, Stapleton, & Wassenhove, 2011; Day et al.,
2012; Guha-Sapit & Panhuis, 2009; Tomasini & Was-
senhove, 2009b).
Building on the theoretical insights and conceptual
development from Bernardes and Hanna (2009), in
this study, we define healthcare disaster responsive-
ness as the ability of a self-sufficient healthcare logis-
tics system, such as a military foreign field service,
to address current or emerging healthcare needs of
an affected area in the aftermath of a disaster. The
healthcare needs can demand that the logistics sys-
tem varies its state to accommodate changes in the
demand levels for services (e.g., number of casual-
ties), service mix (e.g., level of primary and second-
ary care), demand for new services (e.g., from ba-
sic wards to infectious disease wards), and service
delivery schemes (e.g., to war zones, conflict areas,
neutral areas, underdeveloped regions, etc.).
3. RESEARCH DESIGN AND CASES
We selected a qualitative research design, and a case
study approach, because in emerging research phe-
nomena, like humanitarian aid operations, a qualita-
tive approach not only can generate new theoretical
ideas but also allow us to “examine a contemporary
phenomenon in its real-time context” (Yin, 2013).
Our review of extant literature on management in
humanitarian aid shows the use of a case-based ap-
proach to understand field-vehicle fleet management
operations (Martinez, Stapleton, & Wassenhove,
2011), humanitarian logistics (Tomasini & Wassen-
hove, 2009b), and management of supply chains in
humanitarian logistics (Wassenhove, 2006).
Following Eisenhardt (1989) and Miles, Huber-
man and Saldana (2013), we adopt an inductively
grounded case study approach to fulfill the im-
portant exploratory quest of better understand-
ing how a little-known organizational structure (a
FFH) achieves success (responsiveness) in a critical
and complex environment (aftermath of a sudden-
impact disaster). According to Miles et al. (2013), a
highly inductive study design is appropriate when
experienced researchers are exploring an under-
studied phenomenon, such as the use of a FFH in
disaster relief and the organizational characteristics
that confer it responsiveness in a chaotic, complex,
and uncertain environment.
Our research design is based on multiple cases and
involves multiple investigators; thus, allowing for
replication logic (Yin, 2013), where the cases can be
somewhat treated as “a series of independent ex-
periments that confirm or disconfirm emerging con-
ceptual insights” (Brown & Eisenhardt, 1997, p. 227).
Studies following a similar research design identify
the development of testable theory that reduces
researcher bias and gives a close correspondence
between theory and data as two salient features of
replication logic (Amit & Zott, 2001; Ravenswood,
2011). Since the research on the topic of humanitar-
ian operations is in the early stages and an in-depth
understanding of the subject is considered urgent
and necessary (Day et al., 2012), an inductive case
study approach is a good research strategy (Edmon-
son & McManus, 2007; Creswell, 2012).
Our purposeful sampling involves the ten FFH de-
ployments of the Israel Defense Forces (IDF) in the
6. Naor, M., Bernardes, E. S.: Self-Sufficient Healthcare Logistics Systems and Responsiveness: Ten Cases of Foreign Field Hospitals Deployed to Disaster...
ISSN: 1984-3046 • Journal of Operations and Supply Chain Management Volume 9 Number 1 p 01 – 225
last three decades (see Appendix I), which allow for
different perspectives on the deployment of these
self-sufficient healthcare logistics system to different
areas of operation – purposeful maximal sampling
(Cresswell, 2012). The selection of the IDF missions
to investigate factors that may account for the success
of FFHs is based on access and traits of the cases. We
gained access to high-ranking and experienced of-
ficials directly involved with the deployments over
the years. This allows our study to benefit from data
provided by experience of over three decades in
providing humanitarian healthcare aid at disasters
areas. In addition, both the military strength and ex-
penditure as a percentage of gross domestic product
position the Israeli military within the top group of
countries that typically deploy FFHs (Central Intel-
ligence Agency, 2016).
After each mission, the IDF held a rigorous post-
mission comprehensive investigation, in order to
derive lessons about functional and structural ad-
aptation, manpower selection and training, medi-
cal equipment and general facilities, transportation,
communication systems, medical data storage, cre-
ativity, mission termination, etc. As such, a body of
knowledge has been accumulated over the years by
the IDF Medical Corps from deploying numerous
relief missions to both natural and man-made disas-
ters, in different regions of the globe (Africa, Asia,
Caribbean, Europe, and Middle East). Access to this
type of data, which juxtaposes different humanitar-
ian missions, is regarded as helpful for the purposes
of our study. Indeed our study shows an evolution-
ary pattern with improvements implemented from
one mission to the next.
We collected primary data through interviews and
secondary data through consultation to documents
available on the missions. We conducted a series of
interviews with several high-ranking career officials
who led IDF missions over the years and have vast
experience in humanitarian aid from their service in
the Pikud Oref (Israel Home Front Command). Most
of them are high-ranked officers in the IDF who
served as the Chief Medical Officers of the missions
described in the cases. We triangulated the primary
data with secondary data published on the mis-
sions and other documents, conducting within and
across-case analysis to identify patterns. Due to the
nature of the organization and the sensitivity of its
missions, names are not disclosed to preserve ano-
nymity, but Appendix 3 presents general informa-
tion on the interviewees. Appendix 4 describes the
interview questionnaire protocol.
The summary of the cases in Appendix 1 illustrates
the rapid tempo of the IDF FFHs, typically opera-
tional within 24 hours of deployment, and the range
of services provided, which vary from primary care
to advanced surgical and medical services. As these
humanitarian aid missions take place across the
globe, these type of healthcare logistic system faces
operations in different cultures. The cases illustrate
the need for healthcare services responsiveness even
in terms of cultural diversity and provide examples
of actions in this respect, such as the accommoda-
tion of Indian or Arabic traditions. The scale of the
healthcare logistics system also responds to the di-
mensions of the impact and needs of the area affect-
ed, varying from small outpatient clinics to inpatient
hospital structures. Appendix 2 shows the range of
types of disasters, the duration of deployments, and
the capacity of the logistic systems in terms of num-
ber of beds, personnel, and specialty areas. Each
type of disaster is unique and imposes a different set
of challenges and needs that reveal the paramount
role of disaster responsiveness, which is achieved
through various types of flexibility.
4. CASE ANALYSIS AND PROPOSITIONS
We performed our interpretation of the data in light
of the main general precepts of the contingency the-
ory. The contingency theory (Drazin & Ven, 1985;
Lawrence & Lorsch, 1967) asserts that organizational
characteristics should fit their environment in order
to achieve high performance. Several studies in the
literature build on the contingency theory to explain
the relationship between the environment, organiza-
tional structure, management practices, and perfor-
mance (Strasser, 1983). In the context of humanitarian
aid, a foreign field hospital is a self-sufficient health-
care logistics system that requires structural flexibili-
ty to be responsive (Bernardes & Hanna, 2009) and, as
such, to fit the highly uncertain and complex external
environment that is the aftermath of sudden-impact
disasters (Besiou et al., 2011).
One of the insights that emerges from our inter-
views and data analysis refers to organizational
knowledge accumulated and diffused over the years
by the IDF. This seems to have facilitated the iden-
tification and development of processes and capa-
bilities that contributed towards the flexibility of the
self-contained healthcare logistics systems. The evo-
lution of IDF humanitarian operations started with
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the deployment of mobile clinics to disaster areas
(Kasis et al., 2001). This initial arrangement was later
transformed into full-blown foreign field hospitals
with their scale tailored to the type of disaster and
area needs (echelons). The founder of the emergency
medicine discipline in Israel, and a senior IDF Of-
ficer in charge of the humanitarian missions during
the 1980s and 1990s [#4, appendix 3], describes the
evolution and explains how it took place:
The first full-scale IDF FFH was in Armenia
and later Turkey, India, and Haiti. The evolu-
tion happened in terms of four factors: struc-
ture, mode of operations, deployment, and
assessment. The concept of the Israeli FFH is
built based on the model of FFHs that were be-
ing used by the IDF during war times in the
Middle East, such as the Yom Kippur War
(1973) and Operation Peace Galilee (1982).
The IDF FFH adopted the IDF military model of
treating soldiers wounded in the battlefield using
the medical principle of echelons, which refers to
roles or levels of medical care. Echelons describe the
stratification of the tiers in which medical care is or-
ganized to conduct treatment and is defined on the
basis of capabilities and resources that they possess
(Church, 1990). Following this principle, the IDF or-
ganizes the FHH in the first echelon (capable of triage
in the field), second echelon (capable of functioning
as a referral center providing secondary care), and
third echelon (capable of performing evacuation for
tertiary care). This allows the field hospital to pri-
oritize patients based on the initial assessment of the
severity of their injuries by the lower echelon. Dur-
ing the evolution of the humanitarian missions and
development of the self-contained healthcare logis-
tics system currently adopted by the IDF, there has
been a great deal of learning and initiatives geared
towards preserving such knowledge. A senior IDF
Officer [#6, appendix 3] in charge of the humanitar-
ian missions during the last decade elaborates on
this point and highlights some important features of
the process:
The Israeli government has been investing in costly
humanitarian outreach around the globe for over
three decades. The staff of every Israeli FFH is com-
posed two-thirds of participants from past missions
and one-third of newcomers, in order to transfer
knowledge gathered between missions and create
an organizational body of knowledge on humani-
tarian aid.
In addition to the procedural rotation of person-
nel, there are formal processes in place to codify
and derive lessons learned. Another senior Officer
[#4, appendix 3] indicates that the IDF humanitar-
ian missions “conclude with a rigorous process of
post-mission comprehensive investigation in order
to derive lessons about what type of equipment to
bring, how to airlift it, and where to unload it.” He
further states that “[a] body of knowledge was ac-
cumulated over the years by IDF from deploying
in numerous relief missions.” Such practices seem
to assure the creation, transfer, and preservation of
organizational knowledge, which, ultimately, seems
to reflect on the identification and development of
the capabilities that contribute towards the respon-
siveness of this type of self-contained healthcare
logistics system. Therefore, the development, pres-
ervation, and transfer of organizational knowledge
about humanitarian logistics may ascertain the fit
between the FHH structure and the uncertainty and
complexity of sudden-impact disasters.
Proposition 1: Healthcare logistics systems that over
time systematically develop and codify humanitar-
ian logistic operations knowledge are associated
with higher responsiveness.
Civilian and military foreign field hospitals are self-
contained healthcare logistics systems that have
been used successfully in both natural and complex
disasters, such as civil conflicts and wars. However,
emerging from our data analysis is the notion that
the military structure may confer advantages to
these mobile healthcare logistical systems. One of
the aspects raised by a senior Officer [#5, appendix
3] is the selection and training of staff that in the IDF
“are selected to join the FFH missions, unlike some
other countries’ teams, which are based on volun-
teers.” In the IDF FFH, the staff (physicians, nurses,
etc.) is recruited in a very selective process. Only se-
nior people that are highly ranked and very quali-
fied are recruited after rigorous training in emergen-
cy medicine. The senior IDF Officer [#6, appendix 3]
further elaborates on the selection and training for
humanitarian missions:
The Israeli staff trains as a unified military unit
for upcoming missions. Training is important
because of the uncertainty in the situation. For
example, in a disaster area the staff should know
who they are supposed to treat and who not: it
is an ethical dilemma to prioritize patients. In
Israel, the FFH is composed of reservist soldiers
drafted for the mission. The army takes care
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of their salary, medical insurance, and family
while they are deployed overseas.
This suggests that the military structure facilitates
preparedness for humanitarian operations through
formal training and the selection process. Another
senior Officer [#5, appendix 3] states that the “ad-
vantage of military compared to non-profit organi-
zations is that it has an annual budget to conduct
practices.” Yet another ranking official [#1, appendix
3] interviewed elaborates on other points:
The military gives structure and discipline. It
recruits people in an organized manner, cov-
ers their life insurance to risky disaster areas,
and pays their salary during missions. Because
the military takes care of the twofold financial
compensation and life insurance, staff can fully
concentrate on accomplishing the relief mis-
sion. The military arranges life insurance for
its staff, which is considered a critical factor by
candidates for deployment in dangerous disas-
ter zones.
The system of benefits, training, and selection em-
ployed by the IDF seems very conducive to rapid
deployment of mobile healthcare logistics systems.
It allows the assembly of a highly trained and co-
hesive team suited to the situation and familiar
with the processes in a short period of time. There
are some unique characteristics to the case in that
Israel is a small country; therefore, as a senior IDF
Officer explains [#4, appendix 3], team members
typically know each other, because “they studied in
the same medical school, worked together, or live
in proximity.” While there are some nuances that
may be unique to Israel, in general, the data seems
to suggest that the military structure in terms of re-
cruitment, training, and benefits may facilitate the
fit between military FFHs and the uncertainty and
complexity caused by sudden-impact disasters.
Proposition 2a: Formal recruitment, training and
benefit packages have a positive effect on health ser-
vices disaster responsiveness.
Proposition 2b: The underlying personnel benefits
structure of a military healthcare logistics system
are associated with higher health services disaster
responsiveness.
We noticed in our cross-case analyses that the IDF
staff has knowledge of culture, language, and the
health situation of the country affected. After a di-
saster, it is paramount that field hospitals arrive
on site and become operational between 36 and 72
hours in order to minimize the number of casualties.
The location of the FFH is a strategic decision deter-
mined by military logistics considerations. The site
is designed to survive aftershocks of earthquakes,
and it needs to be located in a safe place if within a
war zone, but at the same time, it needs to be accessi-
ble to patients. In addition, as the aftermath unfolds,
the situation and needs may change.
During the field operations, there is the continu-
ous need for air support to transport medicine and
equipment. According to an official [#5, appendix 3],
the military can provide “logistical support in the
form of a self-sufficient supply chain of remedies,
equipment, food, and water that civilian or non-
profit humanitarian organizations lack the financial
means to acquire.” However, one key point that
emerges in terms of healthcare services responsive-
ness across the cases is the ability to rapidly deploy
with incomplete information. The IDF mission Chief
Medical Officer to Armenia and Rwanda elaborates
[#4, appendix 3]:
A uniqueness of Israeli FFHs is the ability for
early arrival of the team after preliminary as-
sessment with incomplete information. This
logistical flexibility stems from the usage of
military airplanes which are prepared in stand-
by mode all-year around, ready for immediate
call to be deployed. Military personnel can be
drafted in short notice by command. Another
logistical advantage, military equipment is ac-
cessible for usage, such as electric generators,
laundry machines, remedies, food, tents, water,
and kitchen supply, and soldiers are allocated
as guards too in order to ensure security of the
staff and equipment during a mission in a cha-
otic, uncertain environment.
In this regard, another high-ranking official [#1, ap-
pendix 3] indicates that the “military has advanced
communications systems, logistical support, and
ability for rapid deployment by airplanes.” The IDF
Chief Medical Officer for recent missions to the Phil-
ippines, Japan, and Haiti [#6, appendix 3] shares a
similar view about the military’s ability for quick
deployment on short notice:
Responsiveness, the ability to reach the disaster
zone rapidly in two to three days maximum, is
the major advantage of a military unit drafted
to serve in the FFH by military authorization
command. The FFH is equipped with advanced
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diagnosis equipment like X-ray and radiology
machines from the military inventory that ci-
vilian organizations usually cannot afford. The
IDF FFH is a self-sufficient facility with fuel,
water, and food supplies.
In Adapazari, Turkey (see Appendix I), after the
earthquake in 1999, the availability of air transport
for patients in more critical conditions to more appro-
priate hospitals, for example, the Istanbul hospital,
helped the IDF FFH extend better quality of care to
more patients. In general, the data seems to suggest
that the access to dedicated and specialized equip-
ment may facilitate the fit between military FFHs and
rapid deployment required by the uncertainty and
complexity caused by sudden-impact disasters.
Proposition 3a: Ready and formal access to dedicat-
ed supporting equipment have a positive effect on
healthcare services responsiveness.
Proposition 3b: The underlying dedicated equip-
ment structure of military healthcare logistics sys-
tems is associated with higher health services disas-
ter responsiveness.
Another interesting theme that emerges from the
data analysis related to health services disaster re-
sponsiveness is the ability to cooperate and integrate
work with other agencies and organizations. For in-
stance, in Armenia, the IDF invited the medical staff
from the local hospitals destroyed during the earth-
quake to join its field hospital. This collaboration in-
creased the capacity of the healthcare logistics sys-
tem and added knowledge about the medical history
of the region to the efforts. Similarly, in Rwanda, the
IDF coordinated efforts with the local authorities for
the site selection. The initial primary hospital gradu-
ally moved towards a secondary medical center and
incorporated local and Dutch Army staff to support
the expansion of the services. A high-ranking Officer
sheds further light on this aspect [#2, appendix 3]:
In almost every mission, there were partner-
ships with other countries. In Rwanda, Kosovo,
and Haiti, there was partnership with the USA,
France, Germany, and local organizations. The
Israeli FFH structural flexibility is demonstrat-
ed by the fact it can cooperate with other FFHs
sent by different countries and with the local
healthcare system. To enable this cooperation,
interpreters are part of the staff.
In Kosovo, the IDF partnered with young Albanian
students that volunteered to provide translation in
order to help the hospital. The IDF also coordinated
with the local hospitals to transfer a few of the pa-
tients after initial triage. Another instance of coop-
eration and partnership took place in Haiti, where
the Israeli field hospital reached maximum capacity
in a couple of days. IDF officials coordinated with
primary hospitals for the provision of postoperative
care. This cooperation enabled the IDF FFH to pro-
vide more specialized and surgical services, know-
ing that patients would receive postoperative care in
other facilities. In addition, another high official [#5,
appendix 3] reveals that the Israeli FFH further co-
operated with other countries in other ways, “shar-
ing medical equipment and coordinating the trans-
fer of patients between medical facilities.”
In the Philippines, the IDF FFH combined its physi-
cal setup with the local structure and supported the
local medical staff to create one integrated medical
infrastructure. Although the visiting disaster relief
group had 25 physicians representing most medical
subspecialties and first-class logistics support, it re-
linquished sole decision-making authority and im-
provised to establish a model of cooperation with the
local healthcare administrators. Open discussions to
establish clear lines of responsibility and co-sharing
of tasks helped the foreign medical team to gain the
trust of the local facility and enabled smoother di-
saster operations. The cooperative arrangement al-
lowed the Israeli team to provide medical assistance
to 2,686 cases in ten days. In general, the data seems
to suggest that the ability to cooperate, coordinate,
and incorporate or become part of another team
may facilitate the fit between the military FFH struc-
ture and the high uncertainty, evolving needs, and
complexity caused by sudden-impact disasters.
Proposition 4a: Flexible integration and coordina-
tion capabilities have a positive effect on health ser-
vices disaster responsiveness.
Proposition 4b: The multi-agency experience of the
military healthcare logistics system provides flex-
ibility that is associated with higher health services
disaster responsiveness.
Another aspect that emerges from the cases and data
analysis that seems to confer healthcare responsive-
ness refers to something akin to modularity and
postponement of the healthcare logistical package.
The data suggests that the IDF FFH can be partly
or fully deployed and substitute or complement the
local healthcare system. It can be designed for dif-
ferent stages of disaster: the first 48 hours for emer-
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gency medical response – the immediate response
phase in the disaster management cycle (Heaslip &
Barber, 2014) – or three to fifteen days after the di-
saster for follow-up care and routine medical care
based on the air travel distance from Israel to the
disaster location. Asked about this aspect, a high-
ranking Officer [#1, appendix 3] further elaborates:
The IDF FFH has a flexible structure to be
adaptable to the magnitude and type of the
disaster. It can be deployed in versatile modes
of operation: primary care (first-aid clinic) or
secondary care (with advanced surgery wards
such as neonatal intensive care unit, etc.). For
example, in Rwanda and Kosovo, the FFH was
operated in primary care mode for first-aid
treatment and minor surgeries only.
The data seems to suggest an underlying ability
to incorporate different capabilities by combining
modules of personnel and equipment according to
the current or emerging needs in the field. For in-
stance, a physician who volunteered in Haiti [#3, ap-
pendix 3] discusses the flexibility of the healthcare
logistics package:
It is dynamic according to emerging needs in the
disaster area. In the beginning, it is a triage facil-
ity, and if there isn’t enough space in the FFH for
the hospitalization of patients, then new space is
opened with tents made of net. For example, the
Israeli medical team did outreach visits to treat
patients in remote sites if they could not reach
the FFH due to lack of transportation. Wards are
created according to need in the field. Of course,
there are basic wards that always exist like sur-
gery, trauma, etc., but based on the need in the
field a new ward maybe created. For example, a
ward to deal with infectious disease.
The Chief Medical Officer for recent missions to Ja-
pan, Haiti and the Philippines [#6, appendix 3] indi-
cates that the FFH is able to adapt the operations, the
structure, and the functions according to the emer-
gent needs in the area of disaster. For example, he
cites that, in Haiti, initially the team treated people
suffering from crash injuries as a result of the earth-
quake, but after a month they started treating people
for cholera. The data indicates that the FFHs com-
bine the different resources to fit the situation in the
area of disaster. The structure “can be deployed full
scale with many wards like in the case of Haiti or it
can be a mobile clinic like Japan”, as indicated by
one of our respondents. In Adapazari, Turkey, after
the earthquake, it was important for the field hospi-
tal to be able to adapt to the situation as the medical
needs changed. During the first few days, most of
the patients were injured directly as a result of the
earthquake and there was a need for surgical, ortho-
pedic, obstetric, and gynecology treatment; in the
later stages of the disaster effort, the hospital had to
be able to provide regular medical care and also deal
with infectious diseases. The combination of medi-
cal staff in the field hospital was designed efficiently
to answer the medical needs based on all the stages
after the earthquake. In general, the data seems to
suggest that the capability to mix and match mod-
ules of personnel and equipment and to adapt in the
area of operations facilitates the fit between military
FFHs and the uncertainty and complexity caused by
sudden-impact disasters.
Proposition 5a: The ability to rapidly reconfigure
structure has a positive effect on healthcare services
disaster responsiveness.
Proposition 5b: The underlying multidisciplinary
logistical structure of military healthcare logistics
systems is associated with higher health services di-
saster responsiveness.
The data analysis reveals another aspect that seems
to confer healthcare responsiveness in disaster situ-
ations, which is the creativity and ingenuity of the
personnel involved and their ability to accomplish
the mission with limited resources. Both of these
traits seem to provide flexibility to allow adaptation
to situations of high uncertainty and disruption, such
as encountered in the aftermath of sudden-impact
disasters. The role of those factors was identified in
the cases and became apparent during the interviews.
For instance, an IDF Officer who volunteered in Haiti
[#3, appendix 3] provides an illustration:
It should be noted that the medical staff in Israel
is creative in improvising solutions under field
conditions – which is exactly the characteristic
needed in an uncertain environment post-di-
saster. It may be that the condition in Israel in
which the staff is regularly working in hospitals
with a lack of resources makes people creative.
Another high-ranking official further elaborates [#4,
appendix 3], indicating that in Israel: “Due to national
security instability and shortage of natural resourc-
es, people in general attempt to creatively maximize
output with limited capacity and to adapt to difficult
situations; being able to operate under these condi-
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tions makes IDF FFH staff efficient in uncertainty
post-disaster situations.” In addition to these local
characteristics, there is the general problem-solving
attitude that typically characterizes the military oper-
ations and environment in general. Yet another high-
ranking Officer [#1, appendix 3] adds that IDF FHH
personnel bring prior military field experience, such
as: “the ability to adapt to situations involving opera-
tions in uncharted terrain, the ability to improvise
sleeping quarters outdoors, etc., which fits the post-
disaster context.” Once again, while there are some
nuances that may be unique to Israel, in general, the
data seems to suggest that military training and ex-
perience contribute towards personnel adaptability,
making the military flexible and able to cope with
limited resources, and may facilitate the fit between
military FFHs and the uncertainty and complexity
caused by sudden-impact disasters.
Proposition 6a: Creative and adaptable personnel
has a positive effect on healthcare services disaster
responsiveness.
Proposition 6b: The training and field experience
of military healthcare logistics system personnel are
associated with higher healthcare services disaster
responsiveness.
There are other factors that may contribute to mili-
tary FFH greater healthcare responsiveness as com-
pared to volunteer civilian organizations, such as
the chain-of-command and the juridical regulations
that prescribe and enforce it. We also note that, ac-
cording to a physician [#7, appendix 3], “hospitals in
Israel are understaffed and under-budgeted. Conse-
quently, medical staff has got used to working un-
der pressure, long shifts, and filling multiple roles in
rotation. All these characteristics are typical to what
they might face in a disaster area.” In addition, the
IDF medical staff rotates between tasks and operates
under constant pressure, which may also relate to
higher levels of emergency healthcare responsive-
ness. Figure 1 summarizes the overall propositions.
Figure 1. Summary of the propositions
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5. DISCUSSION AND GENERAL TAKE AWAY
Our study adds to a growing stream of research in-
vestigating humanitarian healthcare logistic opera-
tions. We contribute to this literature by shedding
light on how a very effective and experienced hu-
manitarian organization designs, implements, and
manages its disaster relief efforts, addressing past
calls for studies in this area (e.g., Gatignon, Wassen-
hove, & Charles, 2010). We accomplish this by ex-
amining the ten deployments of the IDF FFH in the
last three decades and proposing factors that may
account for their operational success.
Extant literature points out the important role fre-
quently performed by military forces during sudden-
impact disasters, such as civil conflicts, wars, and
natural disasters (Apte, 2010; Heaslip, 2011; Heaslip
et al., 2012). This literature asserts that the prominent
role of the military in disaster relief efforts stems, at
least partially, from its strength in logistical and orga-
nizational structure (Bjørnstad, 2011; Johnsen, How-
ard, & Miemczyk, 2009; Pettit & Beresford, 2005). Our
study contributes to this stream a nuanced view of
a particular military logistics system, the FFH, and
particular design factors that may account for its ef-
fectiveness. Specifically, the results of our exploratory
case analysis pinpoint categories of structural factors
that may contribute to the responsiveness of this lit-
tle-known healthcare logistics system in the supply
chain management literature. The results from this
study suggest that military FFHs are versatile and
can be employed in the aftermath of both sudden-
onset natural and man-made disasters and conflicts.
Past research separates the disaster management
cycle (DRC) into different phases: preparedness,
response, and recovery (Heaslip & Barber, 2014).
While we did not set out to investigate activities that
take place in each of the different phases as our pri-
mary goal in this study, we argue that the organiza-
tional knowledge codified and diffused over time,
which we propose contribute to the identification
of processes and capabilities that confer structural
flexibility and support responsiveness, inform the
preparedness phase (Heaslip & Barber, 2014; Kovács
& Spens, 2007; Pettit & Beresford, 2009). Among
specific activities that can contribute knowledge to
that phase are the rotation of personnel and com-
prehensive processes of post-mission investigation
observed in the deployments we examined.
In terms of the immediate response phase of the DRC
(Heaslip & Barber, 2014), the critical point in terms
of logistical support (Akhtar, Marr, & Garnevska,
2012), we observe that the IDF FFH adopts the medi-
cal principle of echelons, which refers to roles or lev-
els of medical care. The IDF organizes the FFH in the
first echelon (capable of triage in the field), second
echelon (capable of functioning as a referral center
providing secondary care), and third echelon (capa-
ble of performing evacuation for tertiary care). This
allows the field hospital to prioritize patients based
on the initial assessment of the severity of their inju-
ries by the lower echelon. This organizational design
is akin to and matches Heaslip and Barber’s (2014)
observation that the scale of logistical support may
be linked to the scope of the disaster. The echelons
describe the stratification of the tiers in which medi-
cal care is organized to conduct treatment. We note
that each echelon of the FFH possesses a defined
level of capabilities and resources that confers flex-
ibility to the overall structure and supports respon-
siveness to the situation on the ground.
While prior literature advances our knowledge by
categorizing the disaster management cycle into pre-
paredness, immediate response, and reconstruction
(Heaslip & Barber, 2014), the case analysis suggests
that this useful categorization can be further expand-
ed or discriminating in the case of relief health servic-
es. As illustrated by some deployments, such as Haiti
and the Philippines, the immediate response phase
may unfold in unpredictable ways and demand ad-
ditional services not directly tied up to the initial
event but to its contextual development. For instance,
emergency services targeted towards crash injuries
in the aftermath of an earthquake may need to adapt
to accommodate the demand to contain contagious
diseases at a later time. This suggests that the needs
during the immediate response phase can evolve in
complex ways, requiring an organizational structure
of the logistics system that is flexible and can respond
to emergent changes. It also suggests that it might be
beneficial to sub-categorize the response phase into
immediate and evolving stages to better examine the
disaster relief supply chain processes.
Among the propositions contributed by our study
towards better understanding of healthcare logistics
system responsiveness are integration and coordi-
nation. Balcik et al. (2010) examine the basic struc-
ture of humanitarian relief chains and coordination
mechanisms practiced at different stages. In general,
our findings seem to concur that the ability to coop-
erate, coordinate, and incorporate or become part of
another team may facilitate the fit between the mili-
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Table 1. Insights for emergency healthcare logistics deployments
1. An advanced team is crucial for defining needs, expectations, priorities, and
identifying risks, as well as facilitating legal details with local authorities.
2. Swift deployment providing adaptive operative flexibility is maintained by
the delegation’s multidisciplinary heterogeneity of personnel, and readiness
for improvisations.
3. Coordination with both the local health system and other aid organizations
operations in the disaster area is essential.
4. The global nature of the deployments demands awareness and respect to na-
tional cultural diversity of the parties involved.
tary FFH structure and the high uncertainty, evolv-
ing needs, and complexity caused by sudden-impact
disasters. The effectiveness of such ability should
confer flexibility to the healthcare logistics system
and support its responsiveness. One key action we
identify in this self-contained logistics system is the
ability and willingness to hold open discussions to
establish clear lines of responsibility and relinquish
leadership when needed. This is a critical insight,
as past research indicates that the coordination be-
tween military and relief partners is frequently prob-
lematic (Heaslip, Mangan, & Lalwani, 2007; Heaslip
et al., 2012; Pettit & Beresford, 2005).
While each location and type of disaster presents
unique challenges, we identify some general in-
sights from our analysis that seem associated to the
responsive characteristic of healthcare relief logis-
tics systems. First, from a logistical perspective, the
cross-case analysis suggests that the rapid dispatch
of a preliminary team immediately after a disaster to
gather tactical information can increase the respon-
siveness of the actual logistical system deployed.
The information gathered by the preliminary team
can inform the assembly of the modules of person-
nel and equipment that need to be brought together
to provide the required capabilities of the healthcare
logistical package. While the preliminary team col-
lects information, the healthcare logistical package
is assembled. This can allow the delayed customiza-
tion of the available resources to the unique condi-
tions of the aftermath and the specific emergency
needs of the area affected.
Another insight is that the medical staff should be
trained in a variety of wards since the uncertainty
and complexity of these environments (Besiou et al.,
2011) require flexibility. Team members are likely to
rotate between tasks due to the shortage of staff and
unpredictability of the situations. For instance, IDF
surgical physicians assisted in routine patient care
in Turkey, while non-surgical staff treated injured
patients in Haiti. As such, it seems that cross-train-
ing increases flexibility to the logistical package and
supports healthcare responsiveness in aid missions.
Third, creativity and problem-solving orientation
seem to be necessary traits to deal with the complex-
ity and uncertainty of disaster relief situations and
to improvise logistical solutions also in the case of
health emergency services. For instance, such traits
can help accommodate difficulties in the field, such
as shortage of basic surgical instruments as well as
the supply of medical devices and advanced blood
laboratory services. This is another personnel-relat-
ed trait that supports or adds various characteristics
of flexibility to the logistical package. Ultimately,
this trait of the healthcare professionals supports
healthcare responsiveness.
Finally, we note from the onset that the timing, com-
plexity, uncertainty and the ensuing consequences of
sudden-impact disasters demand a logistical system
that fits those contingencies. We identify responsive-
ness (Bernardes & Hanna, 2009), more specifically
healthcare disaster responsiveness, as the critical op-
erational capability to address those contingencies.
Our study advances propositions about characteris-
tics of a self-sufficient emergency health system that
fits the sudden-impact disaster environment, such as
to deliver healthcare disaster responsiveness. These
characteristics confer the logistics system the abil-
ity to vary its state to accommodate changes in the
demand levels for services (e.g., number of casual-
ties), service mix (e.g., level of primary and second-
ary care), demand for new services (e.g., from basic
wards to infectious disease wards), and service deliv-
ery schemes (e.g., to war zones, conflict areas, neutral
areas, etc.). Table 1 summarizes the general insights
emerging from our study that may inform practice.
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5. The contribution of translators and local health employees is significant.
6. Integration of volunteer teams from other countries into field hospitals can fill
the lack of human resources and improve operations.
7. The optimal operating period is 2-3 weeks. Substitutions and supplementary
airborne logistics are required for longer missions.
8. Standardization of procedures is essential in order to optimize medical re-
sponse.
9. After a few days, most medical activity becomes non-urgent treatment of the
population.
10. Communication devices, information systems, and electronic medical records
improve efficiency of field hospitals.
11. Before departure back to the home country, the delegation need to coordi-
nate with local authorities the transfer of responsibility over the FFH facility,
equipment, and supplies in order to ensure continuity of operations by local
medical staff.
12. Ethical issues pertaining to treatment of patients and their families in disaster
areas must be taken into consideration before mission deployment.
6. FUTURE RESEARCH
This study contributes a set of propositions that of-
fer a fertile and hopefully fruitful avenue for future
research. The propositions can be conceptually devel-
oped and empirically tested to inform research and
practice. For instance, underlying the set of proposi-
tions is the notion that military healthcare logistics
may offer greater responsiveness. Is that the actual
case? Are there situations in which they may not be
the most responsive or appropriate? While there have
been studies focusing on civilian-military aid, there is
a dearth of studies focusing on emergency healthcare,
FFHs particularly, in the supply chain management
literature. In general, underlying the propositions are
structural and infrastructural factors that offer many
possibilities for future research. For instance, creativ-
ity and adaptability of human resources brought in
to compose emergency healthcare logistical packages
seem to be a key contributor to healthcare disaster
emergency responsiveness. What specific traits form
those characteristics and how can they be achieved
through different structures (all-volunteer personnel,
civilian personnel, etc.)?
Heaslip and Barber (2014) ascertain that the great-
est contribution of the military to logistical aid is in
the life-sustaining days after a natural disaster, while
military expertise provided over time is best in a
man-made complex emergency. Underlying this pro-
posal is the notion that the contribution of the mili-
tary is contingent upon the type of disaster. Besides
this consequential distinction, Heaslip and Barber
(2014) contribute knowledge on the challenges faced
by aid organizations during different phases of the
disaster management cycle. However, whereas past
research advances our knowledge by highlighting
the potential role of types of disaster on the contribu-
tion of the military to logistical aid, there is a paucity
of research focusing on specific types of aid. In this
study, we focus on emergency healthcare services, a
type of contribution of the military to the logistical
aid commonly encountered across various types of
disasters, and on unique and little-known healthcare
logistics systems, the FFHs. Although FFHs are de-
ployed across a broad spectrum of disasters, and we
examine factors that confer this logistical system re-
sponsiveness in general, future studies may consider
further uncovering specific factors that may be associ-
ated to responsiveness in each distinctive phase of the
disaster management cycle. Future research may also
examine whether military FFHs are more effective in
contributing emergency healthcare services in certain
types of disaster than others.
Our analysis suggests that the ability to cooperate, co-
ordinate, and incorporate or become part of another
team may facilitate the fit between the military FFH
structure and the high uncertainty, evolving needs,
and complexity caused by sudden-impact disasters.
One key action we identify in this process is the ability
and willingness to hold open discussions to establish
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clear lines of responsibility and relinquish control.
Prior research suggests that different types of disaster
also impact the challenge of achieving civil-military
coordination (Cross, 2014; Heaslip, 2011; Heaslip et
al., 2012; Kovács, Tatham, & Larson, 2012; Rietjns et
al., 2007). Future research may examine whether the
ability to hold open discussions have different im-
pacts in different types of disaster and what other
factors may contribute to the ability to cooperate or
effectively become part of another team under differ-
ent phases in emergency healthcare.
Some of the very factors that may confer respon-
siveness to military FFHs, such as the availability
of dedicated and specialized equipment, may also
lead to unwanted outcomes, such as inhibiting the
search for more effective plans of action. An illus-
trative example related to our point seems to have
been the availability and use of military aircraft to
deliver food in Sudan in 1985. According to Cuny
(1989), various specialists have argued that the use
of military aircraft delayed key decisions on alter-
native methods and concealed delivery issues with
the route from the airports out to rural populations.
Therefore, a question of critical importance is when
military logistical systems to provide healthcare aid
may be inappropriate or less effective. Are there
trade-offs or contingencies involved that can inform
planning and selection of resources?
We identify the capability to rapidly reconfigure
modules of personnel and equipment as one po-
tential contributor to healthcare services disaster
responsiveness and the capability to integrate and
coordinate efforts with multi-agencies as another.
According to previous research (e.g., Peng, Schroed-
er, & Shah, 2008), routines are a critical source of ca-
pabilities. As healthcare logistics systems deployed
in the aftermath of sudden-onset disasters operate in
a politicized environment (Tomasini & Wassenhove,
2009b) and involve different types of organiza-
tions, each with different structures, capacities, and
goals (Balcik et al., 2010), understanding underlying
bundles of routines that support coordination and
integration is an important area for future research.
The same potential is valid for underlying bundles
of routines that support rapid reconfiguration of the
system. Knowledge stemming from these areas can
not only contribute to the humanitarian aid opera-
tions but may also inform the supply chain manage-
ment literature in general.
Another aspect that future researchers can further
develop is the concept of healthcare services disas-
ter responsiveness proposed in this study. Future re-
search can further advance the concept, propose the-
oretically derived measurement items, and validate
them empirically. Future research can also examine
military foreign hospital deployments from other
armed forces in different countries to compare, con-
trast, and replicate the findings of our study. They
can also formally compare the structure and opera-
tions of all-volunteer forms of these self-sufficient
healthcare systems with a military structure to un-
cover additional factors and processes.
Finally, system dynamics has proven very useful
in modeling complex systems (Besiou et al., 2011).
Future researchers can use this body of knowledge
to capture interdependency between the factors pro-
posed in this study under different scenarios. Simu-
lation models can assist researchers and managers
alike to generate insights into the composition and
deployment of healthcare logistics packages to dif-
ferent areas under various circumstances.
7. ACKNOWLEDGMENT
We appreciate the assistance of Israeli Shlicha to
Northern Virginia, Shiri Rachamim (of blessed
memory), who inspired this work by her emissary
in George Mason University, Hillel.
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Appendix 1. Brief description of IDF disaster relief missions
Country Brief description of FFH
Armenia In December 1988, a 7.1 magnitude earthquake occurred in Kirovakan, Soviet Armenia. The IDF
Medical Corps deployed a field hospital to Kirovakan. The FFH team included general and or-
thopedic surgeons, anesthesiologists, experts in rehabilitation, internal and emergency medicine,
nephrology, and pediatrics. The medical relief operation was originally designed to serve as a pe-
diatric rehabilitation center combined with dialysis facilities, as requested by the Soviet authorities
but eventually provided primary care. The majority of patients received ambulatory treatment, but
there were additional trauma cases, gynecology-obstetrics, and a few acute general surgical cases.
Sources: [#4, appendix 3], References: Heyman, Eldad, & Wiener, 1998; Maayan et al., 1997.
Rwanda In July 1994, the IDF deployed 3 teams sequentially for 6 weeks to Goma, Zaire, following trib-
al strife in Rwanda with a consequently displaced population subjected to large-scale epidemics
(principally cholera and dysentery) and famine. The length of the operation requiring team substi-
tution every 2 weeks, and with replacements and supplies arriving by subsequent cargo airplanes,
enabled a continuous prolonged operation. In each team there were experts in internal medicine
and pediatrics with subspecialties, clinical microbiology/tropical medicine, critical care, anesthe-
siology and neonatology, general and orthopedic surgeons, and gynecologists. The FFH compre-
hensive multidisciplinary facilities provided primary and secondary care. The FFH composed of a
triage unit, pediatric, medical and surgical wards, and diagnostic facilities.
Sources: [#4, appendix 3], References: Heyman et al., 1994; 1997; 1998.
Kosovo The conflict in Kosovo in the 90s escalated in 1999, causing more than 1 million people from Kosovo
to flee from their country to the neighboring countries of Macedonia and Albania. In April 1999,
the IDF provided medical services to the refugees. The structure of the hospital was composed
of several wards: emergency room, internal medicine, obstetrics and gynecology, pediatric and
neonatology, delivery, pharmacy, laboratory X-ray, and security. Twenty hours after arriving in
Macedonia, the FFH became functional in the Brazda camp. The IDF field hospital became the
referral center for all other primary medical teams. Most of the patients were treated for infections
(because of poor sanitary conditions in the refugee camps), exhaustion, and chronic illness (heart
disease, diabetes, etc.).
Sources: [#5, appendix 3], References: Amital, Alkan, Adler, Kriess, & Levi., 2003.
Adapazari,
Turkey
On August 17, 1999, a major earthquake (7.4 Richter) occurred in western Turkey. The city of Ada-
pazari was severely hit. The Israeli field hospital was sent by the Israel Defense Forces (IDF) com-
mand. The IDF field hospital located in Adapazari provided advanced surgical and medical ser-
vices; it included trauma care and life-saving surgeries and was ready to accept patients in 24 hours
after arrival on site. The site included 5 beds for intensive care treatment and 80 beds for general
hospital admission, including internal medicine, obstetrics and gynecology, and surgery. The hos-
pital staff was overall composed of 102 personnel acting as a secondary referral center.
Sources: [#1, appendix 3], References: Bar-Dayan et al., 2000; Finestone et al., 2001; Finestone et al.,
2014; Halpern et al., 2003; Margalit et al., 2002; Wolf et al., 2001.
Duzce,
Turkey
In Nov 1999, an earthquake of 7.2 magnitude struck Turkey, this time in the region of Duzce. The
IDF Medical Corps field hospital was sent 3 days after the disaster. It functioned for 9 days, aiming
to substitute for a part of the damaged medical facilities. It acted as a secondary referral center pro-
viding specialized and surgical care The hospital structure included 7 clinical branches: emergency
room (triage), operation room (OR), surgical intensive care unit, internal medicine, orthopedics,
pediatrics, obstetrics, and gynecology. The Israeli field hospital managed to fill the gap in the lo-
cal medical system and, during its peak operation, its capacity was 300 patients per day. The field
hospital focus was on secondary medical care rather than primary and urgent care.
Sources: [#1, appendix 3], References: Bar-Dayan et al., 2005.
20. Naor, M., Bernardes, E. S.: Self-Sufficient Healthcare Logistics Systems and Responsiveness: Ten Cases of Foreign Field Hospitals Deployed to Disaster...
ISSN: 1984-3046 • Journal of Operations and Supply Chain Management Volume 9 Number 1 p 01 – 2219
Bhuj,
India
On January 26, 2001, a 7.7 Richter earthquake occurred in India, with the epicenter located in the
city of Bhuj. The IDF-led relief activity in India departed within 84 hours after recruiting personnel
from both regular army and reserve units and initiated hospital activity at site on day 6. The field
hospital had a fully self-sufficient tent enactment with 30 beds and included auxiliary services units
such as radiology, laboratory and medical supplies, and a logistical support unit. The total number
of personnel deployed for the India operations was 97.
Sources: [#2, appendix 3], References: Bar-On, Abargel, Peleg, & Kreiss, 2013.
Port au
Prince,
Haiti
A 7.2 Richter magnitude earthquake struck Haiti in January 2010. The Israel Defense Forces Medical
Corps field hospital was on site and operational 89 hours after the earthquake and provided medi-
cal care to many patients during its 10 days of operation. The hospital brought all required supplies
in order to stay independent and provide fast deployment, including medical requirements such as
antibiotics, imaging machines and laboratory facilities, and energy sources and accommodations.
The field hospital consisted of 121 hospital staff members, divided in different units, including
medical, surgical, pediatric, orthopedic, gynecologic, ambulatory and auxiliary. The capacity of the
field hospital was 60 inpatient beds, which could be expanded to 72.
Sources: [#1, #2, and #3, #7, appendix 3], References: Farfel et al., 2011; Finestone et al., 2001; Kreiss
et al., 2010; Levy et al., 2010; Merin et al., 2011; Peleg et al., 2010; Pinkert et al., 2013; Yitzhak et al.,
2012.
Japan An earthquake of 9.0 on the Richter scale struck Japan on March 11, 2011. It caused a tsumani 250
miles at northeast Honshu. The IDF sent a delegation to build a small scale FFH in the format of a
clinic. Its clinic was located on the east coast in the town of Minami-Sanriku. It served mainly as a
referral unit for diagnostic and medical treatment. It was staffed with 55 personnel. The structure of
the FFH consisted of several wards: registration-triage and discharge, gynecology, internal medi-
cine, laboratory, surgery, pediatrics, pharmacy, laboratory and imaging, and a logistics command
center. Also, a team of 8 translators helped the FFH crew. In addition, there were an imaging crew
equipped with ultrasound and X-ray, a hematology-microbiology-chemistry laboratory, and wire-
less services.
Sources: [#6, appendix 3], References: Finestone et al., 2001; Merin et al., 2012; Pinkert et al., 2013.
The Philip-
pines
The typhoon Haiyan struck the Philippines on November 8, 2013. Five days after the event, an IDF
team from Israel was assigned by the Philippines government to provide medical assistance to the
city of Bogo, where a local hospital serving more than 250,000 people was operating at partial ca-
pacity. The FFH team in the Philippines decided to combine its physical setup with the local struc-
ture and support the local medical staff with its experienced medical group, to provide maximum
benefit and thereby create one integrated medical infrastructure. Although the IDF team had 25
physicians representing most medical subspecialties and first-class logistics support, they decided
to relinquish sole decision-making authority and improvised to establish a model of cooperation
with the local healthcare administrators.
Sources: [#6, appendix 3], References: Marom et al., 2014; Merin et al., 2014; Weiser et al., 2015.
Nepal A 7.8 Richter magnitude earthquake struck Nepal on April 25, 2015. The IDF mission that estab-
lished a field hospital in Kathmandu on April 29 consisted of 126 personnel including 45 physi-
cians. They arrived with 100 tons of equipment and supplies, and capacity to treat 200 patients per
day. It was the largest IDF mission deployed overseas. Its wards included 2 operating rooms, an
8-bed intensive care unit, trauma, obstetrics, gynecology, surgical, orthopedic, and imaging facility.
Sources: [#6, appendix 3], References: Merin, Yitzhak, & Bader, 2015.
21. Naor, M., Bernardes, E. S.: Self-Sufficient Healthcare Logistics Systems and Responsiveness: Ten Cases of Foreign Field Hospitals Deployed to Disaster...
ISSN: 1984-3046 • Journal of Operations and Supply Chain Management Volume 9 Number 1 p 01 – 2220
Appendix 2. Data on relief missions
Country Armenia Rwanda Kosovo Turkey
(Adapaz-
ari)
Turkey
(Duzce)
India Haiti Japan Philippines Nepal
Date (month, year) Dec-88 Jul-94 Apr-99 Aug-99 Nov-99 Jan-01 Jan-10 Mar-11 Nov-13 Apr-15
Type of disaster 6.8 Richter
Earth-
quake
Rwandan
Refugees
Albanian
Refugees
7.6 Richter
Earth-
quake
7.2 Richter
Earth-
quake
7.7 Richter
Earth-
quake
7 Richter
Earth-
quake
9.0 Richter
Earth-
quake
Typhoon 7.8 Richter
Earth-
quake
Time until initiation of
FFH
12 days 4 days 24-36
hours
63 hours 6 days 89 hours 2 weeks 5 days 82 hours
Duration of deployment 13 days 6 weeks 16 days 1 week 9 days 10 days 10 days 2 weeks 10 days 11days
Number of casualties 25,000 Hundreds
of thou-
sands
2,627 705 20,005 230,000 28,000 6,300 9000
Number of injured 19000 Hundreds
of thou-
sands
5,084 3,500 166812 250,000 2,800 28,000 23,000
Number of beds in FFH 25 50 35 80 30 72 80 60
Total number of patients 2,400 6,000 1,560 1,205 2,230 1,223 1,111 400 2686 1668
Total personnel 34 110 76 102 100 97 100 55 147 126
Physicians 20 18 15 21 21 45 14 25 45
Nurses 3 21 7 10 13 27 7 29
Paramedics and Medics 7 4 2 18 19 21
Pharmacists 1 2 1 1 2 1 1 1
Radiology Technicians 1 1 1 1 1 2 1 1 1
Laboratory Technicians 1 1 1 1 1 3 2 1 1
22. Naor, M., Bernardes, E. S.: Self-Sufficient Healthcare Logistics Systems and Responsiveness: Ten Cases of Foreign Field Hospitals Deployed to Disaster...
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Appendix 3. Case study interviewees
Title1 Position as participant in missions2 Time period
#1 Ph.D. in Policy, Strategy and Administration
of Large-scale Emergency Situations, in the
field of Response to Large-scale Sudden Di-
sasters.
Team member, United Nations Disaster As-
sessment and Coordination [UNDAC].
Head of the organizations F.I.R.S.T./IsraAid/
medical mission to Haiti.
(2011-2015)
#2 M.D., Director of Pediatric Orthopedic Unit,
Schneider Children’s Medical Center in Is-
rael.
Head of orthopedic sector in delegation to
Haiti. Also, participated in mission to Tur-
key.
(2012)
#3 M.D., Department of Medicine, Coney Is-
land Hospital, New York City.
Volunteered as physician inside tent hospi-
tals built by F.I.R.S.T. in Haiti.
(2011-2015)
#4 M.D., Head of Department of Medicine, Mt.
Scopus Hospital, Jerusalem.
Chief Medical Officer of IDF missions both
to Armenia and Rwanda.
(2013-2015)
#5 M.D., Orthopedic surgeon and emergency
physician. Has served as Adviser on Disas-
ter and Emergency Medicine to the Ministry
of Health in Israel and has served as Director
General of Magen David Adom (Israel’s na-
tional Red Cross).
Medical Adviser for the Department of
Peacekeeping Operations at the United Na-
tions Headquarters in New York. Active in
organizing and leading humanitarian medi-
cal rescue and assistance teams both to Ethi-
opia and Kosovo.
(2014)
#6 M.D., Head, Trauma Unit, Shaare Zedek
Medical Center, and Head, emergency hos-
pital preparedness for mass causality, Jeru-
salem, Israel.
Chief Medical Officer of 3 recent missions to
the Philippines, Japan, and Haiti.
(2013-2015)
#7 M.D., Resident in Critical Care Division, Tel
Ha Shomer and Rambam Hospitals, Israel.
Volunteered as medical resident in Haiti. (2012-2014)
1. All informants were directly involved in disaster relief missions and some occupied senior positions in key areas
with medical responsibilities, which allowed them to gain evidence-based knowledge about humanitarian aid.
2. Several informants were highly ranked in United Nations Disaster Assessment and Coordination [UNDAC] and
the Department of Peacekeeping Operations at the United Nations Headquarters in New York. Therefore, they
have expert knowledge about the administrative aspects of collaboration between countries during relief missions.
23. Naor, M., Bernardes, E. S.: Self-Sufficient Healthcare Logistics Systems and Responsiveness: Ten Cases of Foreign Field Hospitals Deployed to Disaster...
ISSN: 1984-3046 • Journal of Operations and Supply Chain Management Volume 9 Number 1 p 01 – 2222
Appendix 4. Interview protocol
Personal background:
1. Please tell us about yourself (education, working
experience in healthcare, etc.)
2. What is your expertise (pediatrics, surgery, ortho-
pedics, mental, obstetrics, etc.)?
3. Do you have specific training in emergency medi-
cine? How many years? What types of injuries are
you trained to treat?
4. How long have you been working in the area of
disaster relief and in what capacities?
5. Have you been personally deployed in a past mis-
sion to provide medical aid as part of a foreign
field hospital?
6. What is your current rank (technician, nurse, resi-
dent, M.D.)?
Israel Defense Forces (IDF)-related questions:
1. In which missions of IDF did you participate (date,
country, etc.) and what type of disaster (earth-
quake, flood, civil war, etc.)?
2. What was your specific role in the missions?
3. Did you get paid for mission, insurance, etc.?
4. What type of care did the FFH provide during
your mission (first aid, secondary care, etc.)?
5. What type of training did you undergo before the
mission?
6. Did you see differences/progress between IDF mis-
sions that you have participated in over the years
(preparation, equipment, training, chain of com-
mand)?
7. How does IDF retain knowledge and diffuse it to
new staff recruited for future missions?
8. Does IDF conduct post-mission investigations af-
ter missions to learn lessons for improvement?
9. What are the advantages and drawbacks of FFHs
affiliated with Israel’s military over civilian orga-
nizations deploying FFHs?
10. Does IDF use specific methods developed by the
military in Israel for its FFHs? Are they effective?
11. What is the impact of Israeli national culture on the
behavior of staff in the disaster area?
12. What differences have you seen between FFHs
built by IDF and other countries?
Mission-related questions:
1. How were the processes of assessment and prepa-
ration for the mission conducted?
2. What was the deployment time from disaster oc-
currence until arrival to the area?
3. How did you arrive (flight, ship, etc.)?
4. When did you personally join the mission? When
did you leave?
5. How long did the FFH built by IDF stay in the
field? What was the overall length of its mission?
6. What type of equipment did you use? What
was missing and should be included in future
missions?
7. What type of remedies did you use? What was
missing (vaccines, blood, etc.)?
8. How was IDF cooperation with FFHs from other
countries?
9. How was the cooperation with the local govern-
ment/agencies/population? Did you use language
translators? What could be improved?
10. Did you use Information Systems during the mis-
sion (what type)?
11. What was the structure of the foreign field hospi-
tal? What wards did it include? Can you please
draw a chart? What wards do you think were miss-
ing and should be in future missions?
12. What type of injuries did you treat?
13. Did you treat non-disaster-related patients with
chronic diseases, etc.?
14. What was the admission process into the hospital?
How was the treatment and referral process be-
tween wards inside the hospital conducted? Can
you please draw a chart? Did you accept referral
patients?
15. How was the discharge process of patients? Did
you refer to other FFHs or local hospitals?
16. What recommendations do you have for future
missions (equipment, staff, resource utilization, co-
operation with other organizations and countries)?