Category Archives: Infectious Disease

Avian Influenza A(H7N9) Perspectives in JIDC: Immune Status, The Elderly and Pandemics. by Stephen Huang

On 31 March 31 2013, the Chinese National Health and Family Planning Commission officially announced the emergence of novel avian influenza A(H7N9) virus infection in humans.  This virus has now caused disease in 108 people (as of 23 April 23), including severe cases and mortality.  Although the virus has not been shown to transmit from human-to-human, avian influenza A(H7N9) virus poses a pandemic threat in the human population due to the lack of pre-existing immunity and its high fatality rate, should human-to-human transmission occur.


Figure 2 from Guan et al., 2013: Typical wet market in China showing staked cages of chickens, ducks and pigeons

In this issue of JIDC, Yi and colleagues of the International Institute of Infection and Immunity, Shantou University Medical College, Shantou, Guangdong, China, published a manuscript reporting a possible route via the mixed poultry-mammals  environment in the Chinese live markets as the source of avian influenza A(H7N9) virus human infections.


Figure 3 from Guan et al., 2013: Typical wet market in China showing close proximity of multiple species including rabbits

Furthermore, based on the predominant number of severe cases in the elderly, the paper also puts forth the elderly population as at high risk for avian influenza A(H7N9) virus H7N9 human disease.


Figure 5 from Guan et al., 2013: Number of nrH7N9 human cases per age group in
China as of April 15

The manuscript describes the lack of knowledge in designing effective H7N9 vaccines and immune surveillance, as well as lack of understanding in the disease’s pathogenesis, especially in the high-risk group.  This issue requires immediate attention for assessing a possible new pandemic outbreak.  The article can be found under this link:

Stephen Huang


Filed under China, Countries, Environmental Issues, Infectious Disease, Influenza, Outbreaks

Climate Change, Perspectives from Nepal

As a molecular biologist, my mind is frequently focused highly at the microscopic level.   I rarely consider the impact of large-scale environmental or cultural events on the very small molecules or microorganisms which coexist along side us.  Since reading Influence of environmental factors on the presence of Vibrio cholerae in the marine environment: a climate link, I now have an appreciation for the link between infectious diseases and the ecosystem; that is, how the visible affects the invisible or will eventually affect the visible.


The interaction between the weather and infectious disease status is an important area of research.  Many examples throughout history show how weather pattern changes and natural disasters lead to catastrophic disease outbreaks.  One recent example is the current outbreak of chloera in Haiti which occurred following the earthquake of 2010 (Kelvin AA JIDC 2011).  The earthquake, which devastated the country’s already weak water sanitization system, created a habitable environment for the colonization of the Cholera bacterium and facilitated the spread of the disease.  Perhaps my favorite article which reviews the interaction between climate change/weather and infectious disease outbreaks is an article by V. Sedas.  In this article, Sedas reviews how environmental factors have significant influence on the outbreak potential and pathogenesis of V. cholerae and other disease causing agents (Seda VT JIDC 2007).  As the fecal-oral transmission route of V. cholera relies heavily on the ecology of the native water supply, seasonal water cycles have been shown to affect the emergence and re-emergence of V. cholerae, thereby affecting the health of local populations (Seda VT JIDC 2007).  This article I highly recommend reading.

In this JIDC Postcard, Yadav Prasad Joshi reflects on how anthropocentric climate change is influencing health, lifestyle and ecosystems globally.  Yadav Prasad Joshi is a PhD student from Nepal and his post provides an invaluable perspective on climate change.


Climate Change, Perspectives from Nepal

Have you ever thought about what might be considered the worst event to affect this planet? From wars to terrorism to nuclear emissions, the list is long, but few people would point out the events of climate change. Tsunamis, floods, heat waves, glacial melting and threats to biodiversity are all disasters that affect not only the people in the regions experiencing them, but everyone worldwide.

Weather and climate play a significant role in people’s health. Changes in climate affect average weather conditions. Warmer average temperatures will likely lead to hotter days and more frequent and longer heat waves, which could increase the number of heat related illnesses and deaths. Increases in the frequency or severity of extreme weather events such as storms could accelerate the risk of dangerous flooding, high winds, and other direct threats to people and property. Warmer temperatures could increase the concentrations of unhealthy air and water pollutants. Changes in temperature, precipitation patterns, and extreme events could enhance the spread of some diseases.

Global climate change has become one of the most visible environmental concerns (Bioterrorism) of the 21st century.  Climate change has brought about severe and possibly permanent alterations to our planet’s geological, biological and ecological systems. The Intergovernmental Panel on Climate Change (IPCC) now contends that “there is new and stronger evidence that most of the warming observed over the last 50 years is attributable to human activities”.1 These changes have led to the emergence of large-scale environmental hazards to human health, such as ozone depletion, the greenhouse effect, acid rain, loss of biodiversity, stresses to food-producing systems and the global spread of infectious diseases.1,2 The World Health Organization(WHO) estimates that 160,000 deaths, since 1950, are directly attributable to climate change.3

During the last 100 years, human activities related to the burning of fossil fuels, deforestation and agriculture have led to a 35% increase in CO2 levels in the atmosphere, causing increased trapping of heat and warming of the earth’s atmosphere. Eleven of the last 12 years (1995-2006) rank among the 12 warmest years in the instrumental record of global surface temperature. The IPCC reports that the global average sea level rose at an average rate of 1.8 mm per year from 1961 to 2003. The total rise in the sea level during the 20th century was estimated to be 0.17 metres and projected increase in temperature range is 1.8oC to 4.0oC by the end of this century .1,4


These IPCC reports changes point to the drastic effects that climate change could have onlife in tropical counties and islands such as Vietnam, Mongolia, Laos, Philippines, Papua New Guinea, Nauru, Micronesia, and Tonga among others. Some of these Islands are only two to three metres above sea level and by viewing this trend of climate change, it is very difficult to predict the future of these countries.  The most common observed phenomena are increasing sea level, acidification, alteration in weather conditions, droughts, cyclones, extreme ENSO (El Nino Southern Oscillation) and EI Nino effects, etc.

Climate change has dramatically and negatively affected human health in the form of increased  burden of diseases of all types, in particular vector-borne illnesses such as dengue and malaria. Changes in climate increase the temperature, which in turn accelerates the multiplication of vectors by breeding, causes droughts which kill crops in some areas or floods which cause cholera in others, thus contributing either directly or indirectly to other diseases such as malnutrition and water-borne, air-borne, and food-borne diseases.


Climate change associated with increasingly frequent and severe weather events and causes extensive infrastructure damage, economic slowdown, and interruptions of medical and psychiatric care, all which are likely to affect mental health in several ways. These events, and the lifestyle changes that can result, are associated with increased mental health burdens.5

Basically, there are two ways to  contend with climate change: adaptation and mitigation. The former is as a short-term solution that addresses only how to protect ourselves from adverse condition, whereas the latter is  a long-term process. Therefore, both should run simultaneously. Research area in the sectors of climate change should be highly prioritized and awareness program should be initiated from local levels. For all these activities, governments of all nations should responsible, and develop and implement proper national action plans for climate change.

Who is responsible for these overall hazardous conditions caused by climate change? The answer is human beings. Now the time has come to protect our lovely earth and to think about what we are leaving for our future generations. It is not the time to look for blame for problems such as increasing CO2 concentrations, clear-cutting of the forests and so on. t This is the time  for  all nations and human beings to unite with integrity to save the earth and protect the earth for our progeny.

It is my hope that every human will commit to protecting our planet from changing climate and its disastrous effects on human health.

More opinions in this context are highly welcomed. For further information, please contact the author at


  1. McMichael AJ (2003) Global Climate Change and Health: An Old Story Writ Large. A. J. McMichael et al. editors. World Health Organization Geneva. 1-17.
  2. Sahney, S, Benton MJ, Ferry PA (2010) Links between the global taxonomic diversity and expansion of vertebrates on the land, Biology letters 6: 544-547. Available at:
  3. McMichael AJ, Woodruff R, Hales S (2006) Climate change and human health: Present and future risks. Lancet  367: 859-869.

4. Climate change and health in Cambodia (2008) A vulnerability and adaptation assessment, WHO/MoH.

5. Roth P ( 2010) Climate change and health: mental health effects, News and views on climate, public health and environment. Available at: Accessed on: 1 March 2010.

Slide1Mr. Yadav Prasad Joshi is Nepalese and graduated from Tribhuvan University, Nepal, in Zoology and Psychology. He is extremely interested in infectious diseases and climate change. He joined the JIDC in 2007 as a Reviewer and Editorial Board member in 2012. Mr. Yadav Prasad Joshi has more than 10 years’ teaching experience in biological science to college, university, and medical students. He  participates equally in research activities, seminars, and book writing.  He has done research in tuberculosis, malaria, and many other public health issues.

Currently, he is a PhD student at Sungkyunkwan University, South Korea, in the department of Social and Preventative Medicine. His research topic is climate change and health.


Filed under Cholera, Countries, Environmental Issues, Environmental Postcard, Infectious Disease, Nepal, Postcards

Marie Anne and the WHO investigate Cholera in Sierra Leone

I believe accurate reporting of infectious diseases, including diarrhoeal diseases, to be a significant issue of consideration in both developed and developing nations.  Accurate reporting by the individual, as well as by medical and government institutions, is imperative for analysis of infectious disease epidemiology. With accurate reporting, especially of cholera cases and cholera typing, appropriate therapeutic and preventative measures can be put in place. 

Here, Marie Anne Chattaway, a microbiologist from the UK, describes her experiences working with the WHO in Sierra Leone establishing an Enteric Bacteria Laboratory in Sierra Leone.  Their goal was to aid cholera diagnosis and reporting in this region.  I can’t thank Marie Anne ( enough for sharing her project.  I wish her and the taskforce every success in the future.

Thank you to Marie Anne, WHO and Sierra Leone.      


Marie Anne and Cholera in Sierra Leone


Picture 1: Map of Sierra Leone

I first became interested in developing countries when I started to volunteer for JIDC (The Journal of Infection in Developing Countries) a couple of years ago as a scientific editor and reviewer where the focus was mentoring scientists to publish their research in a scientific journal. I have been working with enteric pathogens for over five years at the Health Protection Agency of the UK and now realise just how much of an impact bacterial enteric infection has in developing countries. Until now, I had only managed to help from the UK, but the outbreak in Sierra Leone provided me with an opportunity to really use my microbiological skills where it was needed the most.

Cholera outbreak in Sierra Leone

Sierra Leone (Picture 1) has recently battled its worst cholera outbreak in 15 years. In

Picture 2: Crowded housing at risk of cholera

Picture 2: Crowded housing at risk of cholera

July and August 2012, the epidemic rapidly spread to all but one of Sierra Leone’s 13 districts. With a combination of crowded housing (Picture 2), unsafe water supplies, poor sanitation and the rainy season ahead, intervention was paramount. On 16 August 2012, the Sierra Leone government declared the outbreak to be a public health emergency, and established the Presidential Taskforce on Cholera. As of 2 October 2012, there had been 20,736 cases, including 280 deaths (case fatality rate or CFR=1.35%). The western area of the country where the capital city of Freetown is located was the most affected area with more than 50% of total cases. Initial training and some supplies were provided to the Central Public Health Reference Laboratory (CPHRL), Lakka and Connaught Hospital, in Freetown by the World Health Organization (WHO) and International Centre for Diarrhoeal Diseases Research, Bangladesh (ICDDR,B).  The Global Outbreak Alert Response Network (GOARN) later requested a microbiologist to further evaluate laboratory facilities and provide technical advice and assistance to strengthen laboratory services for detection of cholera cases, capacity for confirmation by laboratory identification and for conducting differential diagnosis for main enteric pathogens (e.g., Vibrio cholera, Shigella, Salmonella, E. coli). The Health Protection Agency (HPA), UK, sent a microbiologist from the Gastrointestinal Bacteria Reference Unit (GBRU) to undertake this task from 10 October to 8 November 2012.

Travel to Freetown

The HPA was already involved with the cholera outbreak with a focus on epidemiology and case management; Sarika Desai and William Welfare from the HPA had already been deployed as WHO consultants. The specific request for a microbiologist to go to Sierra Leone for the month came later and though I had volunteered to go, in the end I had only 24 hours’ notice that I was on the flight the next day and that urgent supplies were needed. Needless to say, my two large suitcases were filled with consumables as well as clothes, a ridiculous amount of a range of pharmaceutical products (which I did end up using – unfortunately), and insect repellent (the insects still got me, though). I’m not sure what part of the journey was the worst: the bad turbulence on the plane with the woman behind me screaming; the small speedboat trip across the sea in the pitch black;  the jolting of the spine across the dirt tracks in the jeep;, or the sickness on arriving when adapting to the humidity and heat (as you know, we English are used to the cold). Either way, I did make it in one piece and was so happy that I didn’t crash in the plane and impressed by the stunning views (Picture 3) that actually I didn’t mind the bumpy roads.

Picture 3: One of the many stunning views in Freetown

Picture 3: One of the many stunning views in Freetown

Assessment of the laboratory

I was fortunate that there was a dedicated laboratory which had been selected to develop testing based at the Central Public Health Reference Laboratory (CPHRL) in Lakka. It was an hour away from the WHO office. Prior to intervention the department was faced with challenges of the lack of supplies, shortage of available trained staff, poor processing systems, and inadequate Health and Safety protocols in the enteric bacteria section of the CPHRL. The icddr-b had done a fantastic emergency response but further work was now required to establish and maintain an enteric bacteria laboratory in Sierra Leone.

Establishing an Enteric Bacteria Laboratory in Sierra Leone

Before training could even begin, a supplies stock system with the support of the WHO, HPA, CDC and Ministry of Health and Sanitation (MoHS) was set up to receive the required equipment and supplies. Molly Freemen from the Enteric Diseases Laboratory Branch of the CDC joined me for 11 days and the collaboration of all these organisations enabled the success of this mission. Intense training of multiple staff was necessary to maintain function after I left and the staff worked incredibly hard, even coming in at weekends and public holidays. A quality accredited process was set up, including the design of request forms for necessary information, the development of protocols for taking samples, receiving and logging the samples into CPHRL, and testing and recording results on the enteric result database for reporting (Picture 4). A surveillance link was also set up

Picture 4: Left to Right: Musu Abu entering laboratory results with Marie Anne Chattaway

Picture 4: Left to Right: Musu Abu entering laboratory results with Marie Anne Chattaway

so that regular weekly reporting of confirmed enteric pathogens is fed back. The two weeks of practical (Picture 5) and theoretical training was followed by intense three-day theory and practical competency testing. Staff were then certificated in “Isolation and identification of Vibrio cholerae, Salmonella typhi, non-typhoida, lSalmonella, Shigella sp. and E. coli O157” and “Health and Safety and Quality Systems in the enteric bacteria laboratory” (Picture 6).

Picture 6: Left to Right: Musu Abu, Fay Rhodes and Marie Anne Chattaway in Enteric Bacteriology, Quality and Health & Safety training

Picture 5: Left to Right: Musu Abu, Fay Rhodes and Marie Anne Chattaway in Enteric Bacteriology, Quality and Health & Safety training

Challenges and future Work

To sustain the new laboratory service, there is still much work to be done.  The supply system must be managed to ensure stock is available when needed.  Regular testing at the laboratory and reporting of results are essential for monitoring the cholera situation in the country. The biggest challenge will be the organisation and implementation of regular sample collection and transport to CPHRL.  Without regular samples from the districts, the testing competency and surveillance cannot be maintained. The impact of this part of the international response has been considerable; there is now a system for detecting and confirming cholera and other enteric pathogens within Sierra Leone.  If this laboratory component of surveillance is sustained it will lead to a better understanding of the incidence of cholera in the country and provide earlier recognition should the infection become epidemic again, thus enabling a rapid response.

Picture 6: Left to Right: Molly Freeman, Ahmed Foray Samba, Musu Abu, Slyvester Kamanda, Dr Abdual Kamara, Fay Rhodes and Marie Anne Chattaway. Other staff who participated and not in this photo include Eric Sefoi and Doris Harding.

Picture 6: Left to Right: Molly Freeman, Ahmed Foray Samba, Musu Abu, Slyvester Kamanda, Dr Abdual Kamara, Fay Rhodes and Marie Anne Chattaway. Other staff who participated and not in this photo include Eric Sefoi and Doris Harding.

Would I recommend this experience

Absolutely! It was an amazing experience, from networking and collaborating on an international scale with the most amazing and interesting people to experiencing the culture. I felt a real sense of achievement seeing how I can personally make a difference. It is hard work, working long hours with little breaks in sometimes difficult conditions, but the end result was worth any hardship. My favourite challenge was when I first opened the incubator to find lots of small ants favouring the Trypticase Soy agarplates. At first I didn’t think much of it, but when I looked at the plates carefully I saw tiny ant footsteps left by the insects that had walked on a cholera plate just after it had been inoculated. The ants had walked across the plate, dragging the bacteria with it (Picture 7). It is possible that perhaps there is a vector influence with the spread of some diseases that we wouldn’t normally consider!

By Marie Anne Chattaway

**Pictures taken by Marie Anne Chattaway, HPA.

Picture 8: Ant trail spreading cholera on a Trypticase Soy Agar plate (see line from top of plate to the bottom across the middle).

Picture 7: Ant trail spreading cholera on a Trypticase Soy Agar plate (see line from top of plate to the bottom across the middle).


Filed under Countries, Infectious Disease, Postcards, Sierra Leone, Vibrio cholera

Introducing DR. Ana Carolina Ritter, PhD! Moving from PhD student to Post Doctoral Fellow

So you can’t wait to finish your PhD.  The years have been slowly slugging by.  It seems you have been at it for eternity…  And then BAM!!! You are done.  It seems it has come all at once.  So what comes next? What comes after the PhD is completed?  And importantly, now that you have finished (which is what you have been waiting for), it may be hard to know how to move on or what to do next.  I HAVE BEEN THERE. And so has Ana Carolina.

Ana last wrote of her interesting PhD research on Salmonella, telling us how she was able to study and conduct her lab work in both Italy and in her native Brazil.  Now Ana updates us with her exciting news that she has received her PhD.  She also shares how she navigated the difficult road from PhD to landing a postdoctoral fellowship in Bologna, Italy.

Good Luck Ana!


Italy, I’m coming!

Hello! Good news, I’m going back to Italy … To do the postdoctoral research, this time in Bologna!

In my last blog post, I wrote a little bit about my experience completing part of my PhD at the University of Sassari… Since then, I have completed my PhD and the desire to return to Italy increased!

AnaPhD Talk

Ana’s PhD Seminar in Brazil

Therefore, while completing my doctorate, I sought out a group conducting strong research in food microbiology in Italy to do my postdoctoral research. After searching through PubMed, I found some papers published by the group led by Professor Maria Elisabetta Guerzoni.  I was very interested in the research they perform at the University of Bologna, more precisely in the Distal.  I contacted Professor Guerzoni and we were extremely well matched.

Upon receipt of her acceptance, I applied for a scholarship from a Brazilian funding agency for research, called “National Counsel of Technological and Scientific Development” (CNPq)1.  I outlined a project where I proposed working with new technology for disinfection of food, called Gas plasma2.  In late September I received a positive response from the Brazilian government, and will embark for Bologna in January 2013! Very cool huh?

Currently, it is exciting times for research in Brazil as the government is supporting researchers in bringing new technologies to Brazil by funding global travel for scientific education.  This initiative supports the development of competent professionals, through the granting of many scholarships to enable researchers to study in top universities worldwide.

I’m very excited as I am going through a new experience both in my personal life and academic life. And I hope that this partnership with the University of Bologna allows me to publish work as was the case happened with the University of Sassari3… And of course, I’ll be closer the Central Office of JIDC and old friends.

See you!


2: Ragni, A., Berardinelli,A.,, Vannini, L., Montanari, C, Sirri, F., Guerzoni, M.B., Guarnieri, A. Non-thermal atmospheric gas plasma device for surface decontamination of shell eggs. Journal of Food Engineering 100 (2010) 125–132.

3: Ritter, A. C., Bacciu, D., Santi, L., Silva, W.O.B, Vainstein, M. H., Rubino, S., Uzzau, S., Tondo,E.C. Investigation of rpoS and dps genes in Sodium Hypochlorite Resistance of Salmonella Enteritidis SE86 Isolated from Foodborne Illness Outbreaks in Southern Brazil. Journal of Food Protection. Journal of Food Protection. , v.75, p.437 – 442, 2012.


Ana’s PhD Graduation Celebration


Filed under Brazil, Countries, Infectious Disease, Postcards, Salmonella


Below is the Program for the Conference MUMMIES, BONES, and ANCIENT PATHOGENS to be held in Sardinia, Italy 7-8 September 2012.  You can find a PDF for download at the bottom.  I hope everyone has an incredible time!



7-8 September 2012

STINTINO Palazzo Comunale, Sala Consiliare – Stintino, Sardinia, Italy


9:45-10:15 Opening of the Meeting
Salvatore Rubino, Co-chair Organizing Committee
Antonio Diana, Mayor of Stintino
Francesco Tamponi, Responsabile Regionale per i beni culturali ecclesiastici

Daniela Rovina, Soprintendenza Archeologica per le Provincie di Sassari e Nuoro
Attilio Mastino, Rector, University of Sassari

10:15-12:00 Session I: Archaic and Modern Genomes

Piero Cappuccinelli (Session Chair) Introductory remarks

Susanna Sawyer
Department Evolutionary Genetics, Max-Planck-Institute for Evolutionary Anthropology, Leipzig, Germany
Archaic Genomes: A Story Written in Neanderthal and Denisova DNA

Carsten Pusch
Institute of Human Genetics, Division of Molecular Genetics, University of Tübingen, Tübingen, Germany
First Insights into the Metagenome of Ancient Egyptian Mummies Using Next Generation Sequencing

11:15-11:30 Coffee break

Paolo Francalacci
Dipartimento di Scienze della Natura e del Territorio, University of Sassari, Sassari, Italy
Placing the Sequence of “Ötzi the Iceman” in the High Resolution Y chromosome Phlylogeny by Whole Genome Sequencing

12:00-15:15 Session II: Evolutionary Medicine, Ancient Pathogens and Pathologies

David Kelvin (Session Chair) Introductory remarks

Bernardino Fantini
Institute for the History of Medicine and Health, Faculty of Medicine, University of Geneva, Geneva, Switzerland
The Convergence of Genomic Studies and Historical Analysis of Infectious Diseases: the Case of Black Death

Marco Milanese
Dipartimento di Storia, Scienze dell’Uomo e della Formazione, University of Sassari, Sassari, Italy
The Biological Archives of Alghero: Archaeological Questions and Expectations from Biohistory and Biotechnology Projects in the Study of Human Remains from Urban Populations during the Thirteenth to the Seventeenth Centuries

13:00-14:30 Lunch Break

14:30-16:00 Session II: Evolutionary Medicine, Ancient Pathogens and Pathologies (Continued)

Gino Fornaciari
Division of Paleopathology, History of Medicine and Bioethics, Department of Oncology, Transplants and Advanced Technologies in Medicine
Medical School University of Pisa, Pisa, Italy
Cancer and Infectious Diseases: the Challenge of Soft Tissue Paleopathology

Frank Rühli
Centre for Evolutionary Medicine, Institute of Anatomy, University of Zurich, Zurich, Switzerland
Evolutionary Medicine: Ancient Mummies and More…

15:30-16:00 Coffee break

16:00-17:30 Session III: Ancient Pathogens

Giovani Fadda (Session Chair) Introductory remarks

Eugenia Tognotti
Dipartimento di Scienze Biomediche, Università degli Studi di Sassari, Sassari, Italy
Epidemics and Plagues in Sardinia from the 15th to the 20th Century

Raffaella Bianucci
Department of Anatomy, Pharmacology and Legal Medicine, University of Turin, Turin, Italy
Vector-Borne Diseases in Ancient Human Remains

Helen Donoghue
Centre for Infectious Diseases and International Health, University College London, London, UK

Insights into Ancient Tuberculosis and Leprosy

17:30-18:00 Sparkling Wine Cocktail (Brut/Prosecco!)

End of the first day


9:30-12:15 Session IV: Bioarchaeology, Modeling, and Perspectives on Ancient Pathogens

Mohammed Al Ahdal and Marco Milanese (Session Chairs): Introductory remarks

Archaeology of Sant’Imbenia

Elisabetta Garau, Marco Rendeli
Dipartimento di Storia, Scienze dell’Uomo e della Formazione, University of Sassari, Sassari, Italy
Seeds for Thought: Overview of the Archaeology of Sant’Imbenia

Rossella Filigheddu
Dipartimento di Scienze della Natura e del Territorio, University of Sassari, Sassari, Italy
Phenotypic Analysis of Seeds from Sant’Imbenia

Alberto Leon
University Health Network, Toronto, Canada
Summary of Sequencing of Seeds from Sant’Imbenia

Analysis of a Crypt of Sant’Antonio Abate Cathedral, Castelsardo

Franco Campus
Dipartimento di Storia, Scienze dell’Uomo e della Formazione, University of Sassari, Sassari, Italy
Bioarcheaology of a Crypt of Sant’Antonio Abate Cathedral, Castelsardo

Andrea Montella, Vittorio Mazzarello
Dipartimento di Scienze Biomediche, University of Sassari, Sassari, Italy
Histological Analysis of Mummified Tissue from the Crypt of Sant’Antonio Abate Cathedral, Castelsardo

Luca Simbula, Gianni Meloni, Paolo Lampus
Dipartimento di Scienze Chirurgiche, Microchirurgiche e Mediche, University of Sassari, Sassari, Italy
X-Ray Examination of Mummies and Bones from a Crypt of Sant’Antonio Abate Cathedral, Castelsardo

Cristiano Farace, Roberto Madeddu
Dipartimento di Scienze Biomediche, University of Sassari, Sassari, Italy
A Possible Estimation of Historical Pollution Increases by Heavy Metals Analysis in Ancient Bones: Emerging Data from Castelsardo Mummies and Comparison with Mummies from Other Centuries

Manuela Murgia, Bianca Paglietti
Dipartimento di Scienze Biomediche, University of Sassari, Sassari, Italy
Identification of Sporigens in a Crypt of Sant’Antonio Abate Cathedral, Castelsardo

Claudia Viganò, Patrizia Marongiu
Dipartimento di Scienze Biomediche, University of Sassari, Sassari, Italy
Analysis of Pathogens Using PCR of Biomaterial from a Crypt of Sant’Antonio Abate Cathedral, Castelsardo

11:00-11:20 Coffee

Luca Ruiu, Ignazio Floris
Dipartimento di Agraria, University of Sassari, Sassari, Italy
First Report of Insects and Other Arthropods on the Mummies Found inside a Crypt of the Castelsardo Cathedral (Sardinia, Italy)

Nikki Kelvin
Dipartimento di Storia, Scienze dell’Uomo e della Formazione, University of Sassari, Sassari, Italy
Mother-and-Infant Deaths from a Crypt of Sant’Antonio Abate Cathedral, Castelsardo

Historical Modelling and Perspectives

Alessandro Ponzelleti
Art Historian, Sassari, Italy
Practices and Burial Crypts in Churches of Sardinia: Some Examples

Luca Sanna
Dipartimento di Storia, Scienze dell’Uomo e della Formazione, University of Sassari, Sassari, Italy
An Integrated Bioarchaeology Project in North-West Sardinia: the Contribution of Preventive Archeology

Dario Piombino-Mascali
EURAC, Bolzano, Italy
The Sicily Mummy Project

Giampaolo Piga, Assumpciò Malgosa, Antonio Brunetti, Simona Spada, Stefano Enzo.
Dipartimento di Chimica e Farmacia, University of Sassari, Sassari, Italy
Anthropological and Chemico-Physical Studies on the Mummies of Peter II of Aragon and Blanca d’Anjou

Pierre-Olivier Méthot
Institute for the History of Medicine and Health, Geneva University, Geneva, Switzerland
What is a Pathogen? Perspectives (and Problems) from Medical Bacteriology and Pathogenomics

12:30-12:50 Concluding Remarks

David Kelvin
A Cryptic Approach to Future Studies

Salvatore Rubino
Closing Remarks

End of the Meeting

Organizing Committee
Salvatore Rubino (Co-Chair), David Kelvin (Co-Chair)
Attilio Mastino, Marco Milanese, Bruno Masala, Nikki Kelvin, and Andrea Montella

University of Sassari
• “International PhD School in Biomolecular and Biotechnological Sciences”
• Dipartimento di Scienze Biomediche
• Scuola di Dottorato, “Storia, Letterature e Cultura Mediterraneo”

International Sponsors
• University Health Network, Toronto, Canada
• IDR, Canada
• Shantou University Medical School, Shantou, China
• Journal of Infection in Developing Countries

This meeting is in celebration of the 450th anniversary of the founding of the University of Sassari.

Organizing Secretariat: Segreteria Dipartimento di Scienze Biomediche, Viale San Pietro 43 B, 07100 Sassari

To register or receive more information or submit an abstract: rubino(at)uniss(dot)it or nkelvin(at)jidc(dot)org

Mummies, Bones, and Ancient Pathogens Conference Program

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Filed under Conferences, Events, Infectious Disease, News, Uncategorized

Mummies, Bones and Ancient Pathogens — The Official Conference Poster

Below is the Official Poster for the Ancient Pathogens Conference in Sardinia, Italy.  More posts on the conference are to come including the full conference program.

And until then, here is a link to a past post on pathogens — My search for the Contagion Sign in Toronto.

PDF of the Poster for Download:  AncientPathogensConference_SardiniaItaly

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Filed under Conferences, Countries, Events, Infectious Disease, JIDC News, News, Tuberculosis, Uncategorized, Yersinia pestis

A Plague of Bones: Conference!

Without a doubt, my favourite research project I have ever been a part of is the ancient Pathogens project. This was my research focus during my Visiting Professorship at the University of Sassari, Sardinia, Italy in 2010. This was my Indian Jones moment, except the treasure was not rare artifacts but the discovery of ancient pathogens.

In Sardinia there is an abundance of ancient and medieval mass graves (see burial map).  Although these mass graves data back more than 3,000 years, the reason for the mass grave construction still remains a mystery.  Thereby a fascinating scientific problem exists:  What did these people buried together die from?

Archeology of Sardinia

We hypothesized that by sequencing the nonhuman DNA extracted from the bones and teeth of the victims in the mass graves, we could identify a pathogen that may have infected these people and caused their death.   Our list of pathogenic suspects that may have caused death included Yersinia pestis, Salmonella enterica, Bacillos anthracis, Mycobacterium tuberculosis.  This mode of attack, sequencing ancient DNA to determine cause of death, is not new and previous examples include identification of Salmonella enterica enterica serovar Thypi as the causative agent of the ancient plague of Athens in 430 BC [1] and Yersinia pestis as the agent of the Black Plague [2–4] although the later has been disputed [5].   Importantly, mass graves are commonly devised during a disease outbreak to limit the spread of disease, as in Europe during the Black Plague.  Therefore, we speculated that the people buried together in the mass graves of Sardinia died of the same cause, a disease epidemic.  By identifying and studying the causative agent of ancient plagues, we hope to learn about the evolving nature of human and animal modern pathogens so that we can model current and future epidemics.

Since I left Sardinia and my little project, the ancient Pathogen Project has grown enormously.  And that brings us to the announcement of the Ancient Pathogens meeting hosted by Professor Salvatore Rubino in Sardinia, Italy, in September.  The conference is sponsered by JIDC, University Health Network, Shantou University Medical School, Immune Diagnostics and Research, Comune Di Stintino, University of Sassari. This is an exciting opportunity!

Mass grave excavation in Alghero, Sardinia

Titled Mummies, Bones, and Ancient Pathogens, the conference will take place 7-8 September 2012, in Stintino, Sardinia, Italy, at the STINTINO Palazzo Comunale. Over the course of the two days, four sessions on “Archaic and Modern Genomes”, “Evolutionary Medicine, Ancient Pathogens and Pathologies”, “Ancient Pathogens”, and “Bioarchaeology of Sardinia and Sicily” will be held. Several of Europe’s foremost researchers in the fields of Archaeology, Bioarchaeology, the History of Medicine, and Ancient Pathogens are featured speakers, including Prof. Carsten Pusch of the Institute of Human GeneticsUniversity of Tübingen, Germany;  Prof. Bernardino Fantini University of Geneva, Switzerland; Prof. Marco Milanese, University of Sassari; Susanna Sawyer University of Tübingen, Germany; Prof. Raffaella Bianucci University of Turin; Prof. Paolo Francalacci University of Sassari; Prof. Marco Rendeli, University of Sassari; Elisabetta Garau, Unversity of Sassari; Rossella Filigheddu, University of Sassari; and Dr. Alberto Leo Shantou University to name a few. Just to tantalize you, here are some titles of the exciting presentations:

“Archaic Genomes: A Story Written in Neanderthal and Denisova DNA”

“Placing the sequence of “Ötzi the Iceman” in the high resolution Y chromosome phlylogeny by whole genome sequencing”

“Cancer and Infectious Diseases: the Challenge of Soft Tissue Paleopathology”

“Vector-Borne Diseases in Ancient Human Remains”

“The Sicily Mummy Project”

“First Insights into the Metagenome of Ancient Egyptian Mummies Using Next Generation Sequencing”

“Sequencing DNA from Ancient Seeds with Medicinal Properties”

For more information including registration, please visit the conference website  or email Prof. Salvatore Rubino at rubino(at)uniss(dot)it

Reference List

    1.    Papagrigorakis MJ, Yapijakis C, Synodinos PN, Baziotopoulou-Valavani E (2006) DNA examination of ancient dental pulp incriminates typhoid fever as a probable cause of the Plague of Athens. Int J Infect Dis 10: 206-214. S1201-9712(05)00178-5 [pii];10.1016/j.ijid.2005.09.001 [doi].

2.    Raoult D, Aboudharam G, Crubezy E, Larrouy G, Ludes B, Drancourt M (2000) Molecular identification by “suicide PCR” of Yersinia pestis as the agent of medieval black death. Proc Natl Acad Sci U S A 97: 12800-12803. 10.1073/pnas.220225197 [doi];220225197 [pii].

3.    Drancourt M, Aboudharam G, Signoli M, Dutour O, Raoult D (1998) Detection of 400-year-old Yersinia pestis DNA in human dental pulp: an approach to the diagnosis of ancient septicemia. Proc Natl Acad Sci U S A 95: 12637-12640.

4.    Drancourt M, Raoult D (2004) Molecular detection of Yersinia pestis in dental pulp. Microbiology 150: 263-264.

5.    Gilbert MT, Cuccui J, White W, Lynnerup N, Titball RW, Cooper A, Prentice MB (2004) Absence of Yersinia pestis-specific DNA in human teeth from five European excavations of putative plague victims. Microbiology 150: 341-354.


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