IIMA in HealthCare Management: Abstract of Publications (2000-2010)

The Indian Institute of Management, Ahmedabad (IIMA), was established in 1961 as an autonomous institution by the Government of India in collaboration with the Government of Gujarat and Indian industry. IIMA’s involvement in the health sector started with the establishment of the Public Systems Group in 1975. In the initial period, our research focused on the management of primary healthcare services and family planning. We expanded our research activities to include the management of secondary healthcare services in the 80s and to tertiary healthcare services in the 90s. Currently our research interests focus on the governance and management issues in the areas on Rural Health, Urban Health, Public Health and Hospital Management. In June 2004, IIMA Board approved the setting up of a Centre for Management Health Services (CMHS) in recognition of IIMA’s contributions to the health sector in the past and the felt need to strengthen the management of health sector in the context of socio-economic developments of our country. The overall objectives of CMHS are to address the managerial challenges in the delivery of health services to respond to the needs of different segments of our population efficiently and effectively, build institutions of excellence in the health sector, and influence health policies and wider environments. All our research projects are externally funded and we have developed research collaborations with 15-20 international universities in USA, UK, Europe, and Asia. CMHS has also established strong linkages with the Ministry of Health and Family Welfare at the national and state government levels, particularly in the states of Gujarat, Maharashtra, Rajasthan, Madhya Pradesh, Chattisgarh, Orissa, and Bihar. This working paper is a compilation of the abstracts of all our publications in the last 10 years, which include 40 referred journal articles, 54 Working Papers, 19 Chapters in Books and 18 Case Studies.

Why Should 5000 Children Die in India Every Day? Major Causes and Managerial Challenges

Globally, more than 10 million children under 5 years of age, die every year (20 children per minute), most from preventable causes, and almost all in poor countries. Major causes of child death include neonatal disorders (death within 28 days of birth), diarrhea, pneumonia, and measles. Malnutrition accounts for almost 35 % of childhood diseases. India alone accounts for almost 5000 child deaths under 5 years old (U5) every day. India.s child heath indicators are poor even compared with our Asian neighbors, namely Malaysia, Sri Lanka, Thailand, Vietnam, China, Nepal and Bangladesh. Within India, the states of Bihar, Madhya Pradesh, Orissa, Rajasthan and Uttar Pradesh account for almost 60 % of all child deaths India.s neonatal mortality, which accounts for almost 50 % of U5 deaths, is one of the highest in the world. India launched the Universal Immunization Program in 1985, but the status of full immunization in India has reached only 43.5 % by 2005-06. India started the Integrated Child Development Scheme (ICDS) in 1975 to provide supplementary nutrition to children, but 50 % of our children are still malnourished; nearly double that of Sub-Saharan Africa. The WHO/UNICEF training program on Integrated Management of Neonatal and Childhood Illnesses, known as IMNCI, started in India a few years ago, but the progress is very slow. What is unfortunate is the fact that most of these deaths are preventable through proven interventions: preventive interventions and/or treatment interventions, but the management of childhood illnesses is very poor. In this working paper, we bring out the nature and magnitude of child deaths in India (Chapter 1) and then share with you in Chapters 2, 3 and 4 our observations on the management of some of national programs of the government of India such as The Universal Immunization Program (UIP) The Integrated Child Development Scheme (ICDS) The Integrated Management of Neonatal and Child Illnesses (IMNCI) In the final chapter (Chapter 5), we highlight certain managerial challenges to satisfactorily address the child mortality and morbidity in our country.

Conductive and inductive coupling between faulted power lines and buried pipeline by considering the effect of soil structure

The AC total interference of faulted power lines to gas pipelines sharing the same right of way, which may pose a threat to operating personnel and equipment, was studied. The main advantage of this work is to determine the effects of different soil structures on the induced voltage for various soil resistivities. Two main approaches were used to compute the induced voltages, namely the method of moment (MOM), which is based on electromagnetic field theory, and the circuit based method, which uses the circuit grounding analysis to compute the conductive interference and the circuit based models to compute the inductive interference. A 10-km-long parallel pipeline-transmission line model was developed. The soil resistivity was varied, and the induced voltages obtained from both approaches were compared. Soil resistivity and soil structure are important parameters that affect the AC interference level. The results of the study show that the earth potentials and the metal GPRS are independent. Higher soil resistivity causes the tower ground resistance to increase, thus making the shield wire’s attractiveness as a fault current return path to increase, which in turn forces the induced net EMF and the cumulative GPR in the pipeline to reduce

COVID-19 and Digital Contact Tracing: Regulating the Future of Public Health Surveillance

Digital surveillance tools are at the forefront of potential public health response strategies for the COVID-19 pandemic. The United States is in desperate need of a national-level contact tracing and exposure notification strategy to supplement traditional public health response efforts. This article addresses data privacy and security concerns, as well as epidemiological considerations, when developing digital contact tracing and exposure notification tools. It is both feasible and prudent that the United States establish a federal network for public health surveillance aided by digital tools, especially considering that waves of COVID-19 are expected to continue well into 2021 and while the threat of other emerging infectious diseases persists

Effect of the density on the properties of particleboard from Kenaf core and Kelempayan (Neolamarckia spp.) particles / Ammar Imran Ab Malek

This study investigates the potential of kenaf core and Kelempayan as a raw material for manufacturing particleboard. The mixture between 2 species wood particles used to manufacture panel for three different densities (300, 400 and 500 kg/m³) at different kenaf core ratio (30:70 and 50:50). The influences of density and ratio on mechanical and physical properties of particleboard manufactured were determined. The experimental panels were tested for their mechanical strength including modulus of elasticity (MOE), modulus of rupture (MOR), internal bonding (IB) and physical properties which is thickness swelling (TS) and water absorption (WA) were determine based on JIS A 5908: 2003, a Japanese Industrial Standard. For the result all of particleboard does not achieve the minimum MOE standard. Range of MOR for particleboard is 255 to 1140 MPa and it not achieve the minimum standard which is 2000 MPa. The range for MOR of particleboard is in range 0.919 to 5.212 MPa and it not achieve the minimum standard which is 8 MPa. For internal bonding of particleboard, the minimum requirement standard is 0.15 MPa. Based on the result, all of particleboards were achieve the minimum requirement given. Next, according to JIS A 5908: 2003 Type 8, the minimum requirement for thickness swelling of particleboard is 12%. Based on the result, all TS and WA of particleboard does not satisfy the minimum requirement, except for board at (300 and 400 kgm-³) with ratio 50 for TS in 2 hours that achieve the minimum requirement which is 10.748% and 11.409%. Mechanical and physical properties strength of particleboard were increased toward density of board and ratio used were increased

Management of Acute Pain in Obese Patients with Sleep Apnea

Perioperative pain management for obese patients is daily challenges for anesthesiologists especially if complex comorbidities such as Obstructive Sleep Apnea and cardiovascular disease coexist. Limitations to effective pain management in this group are multifactorial, that includes technical difficulty with regional techniques, limited expertise, unavailability of standardized guidelines and lack of familiarity with recent multimodal analgesic regimens. Opioid-related complications such as narcotic-induced ventilatory depression in these group of patients poses another critical concern for both trainees and the experienced anesthesiologists. This chapter is intended for residents, fellows, as well as senior perioperative physicians, and will explore various regional and pharmacological options for acute pain management in this special population based on recent advances and available evidence

STUDY AND SIMULATION OF AN EDGE COUPLE SPLIT RING RESONATOR (EC-SRR) ON TRUNCATED PYRAMIDAL MICROWAVE ABSORBER

Split ring resonator (SRR) structure can potentially be incorporated onto the truncated pyramidal microwave absorber. This study considers three different patterns of edge couple split ring resonator (EC-SRR) designs. Each EC-SRR design is then placed onto the truncated pyramidal microwave absorber. Outer split gap dimension widths of the EC-SRR are varied, and the various S21 performances are compared. This EC-SRR truncated pyramidal microwave absorber is simulated using CST Microwave Studio simulation software. The study and simulation are performed in low frequency range (0.01 GHz to 1 GHz) as well as in microwave frequencies range (1 GHz to 20 GHz). Simulation results of this EC-SRR show improvement of reflection loss and S11 performance in the high frequency range of the pyramidal truncated microwave absorber

Variable Power Supply (variable output) / Wan Imran Fitri Wan Ab Malek and Mohd Zulkepri Ismail

This project - Variable Power Supply - is designed to get a voltage in range that we had set first. Our output are consists of two variable output that was variable DC voltage and variable AC voltage In this project, the important thing is how to make the value of output be variable. This project will be giving the value of voltage that we need to use. From this project it can make us easier to use any device in our live that use voltage to operate that thing

Power transmission lines electromagnetic pollution with consideration of soil resistivity

The alternating current (AC) total interference of power lines may pose a threat to personnel and equipment in its vicinity. The main objective of this work is to determine the electromagnetic distribution and induced voltages on human body, equipment, and houses due to the AC total interference for different soil resistivities. The electromagnetic field and induced voltages may cause health problems to the human body and put it at risk. Two main approaches were used to compute the electromagnetic and induced voltages, namely the field approach, which is based on electromagnetic field distribution, and the circuit approach, which uses the circuit grounding analysis to compute the conductive interference and then uses the circuit based models to compute the inductive interference. Human body, steel houses and 10-km-long transmission line were modelled. The soil resistivity was varied, and the induced voltages obtained from both approaches were compared. Soil resistivity and soil structure are important parameters that affect the AC interference level. The results show that the touch voltage increases when the distance between electromagnetic source and human body increases. For high soil resistivity, the danger of the touch voltage becomes more prominent compared to that for low soil resistivity. Power system voltage level and soil resistivity are two key factors influencing the induced voltage level

Reconstruction of primary vertices at the ATLAS experiment in Run 1 proton–proton collisions at the LHC

This paper presents the method and performance of primary vertex reconstruction in proton–proton collision data recorded by the ATLAS experiment during Run 1 of the LHC. The studies presented focus on data taken during 2012 at a centre-of-mass energy of √s=8 TeV. The performance has been measured as a function of the number of interactions per bunch crossing over a wide range, from one to seventy. The measurement of the position and size of the luminous region and its use as a constraint to improve the primary vertex resolution are discussed. A longitudinal vertex position resolution of about 30μm is achieved for events with high multiplicity of reconstructed tracks. The transverse position resolution is better than 20μm and is dominated by the precision on the size of the luminous region. An analytical model is proposed to describe the primary vertex reconstruction efficiency as a function of the number of interactions per bunch crossing and of the longitudinal size of the luminous region. Agreement between the data and the predictions of this model is better than 3% up to seventy interactions per bunch crossing