Published: November 2013 – David South Consulting

Latin American Food Renaissance Excites Diners

By David South, Development Challenges, South-South Solutions

Food is essential for a good life and plays a critical part in overall human health and development. The better the quality of food available to the population, the better each individual’s overall health will be, and this will have a direct impact on mental and physical performance (http://www.sciencedirect.com/science/article/pii/S2213453012000055).

An innovative restaurant can be the beginning of a taste and flavors renaissance as new foods are discovered and the recipes and foods are cross-marketed. It is an effective strategy that has worked around the world. The restaurant’s brand, in turn, becomes a valuable commodity that can be used to promote a range of products. For example, Brazil’s D.O.M. Restaurante has successfully used its strong reputation to help promote a range of food products drawn from the Amazon rainforest. There is money to be made in this and it can be a major boost to the incomes of food producers, especially small-scale farmers.

As is being found across South America, a rediscovered love of local cuisines and indigenous culinary culture can also lead to profits and a growing global awareness of the continent’s varied foods and recipes.

Innovators are playing with traditional cooking and locally available foods to come up with a modern Latin American cuisine that is getting people very excited.

The latest country to benefit from this is Peru. The first Michelin star awarded to a Peruvian restaurant in Europe went to a restaurant in London, UK. The Michelin (http://travel.michelin.co.uk/michelin-guides-105-c.asp) star is awarded to a restaurant based on the quality of its food and its overall atmosphere and service.

The London restaurant Lima (limalondon.com) is part of the global rise in awareness of Latin American food. It was launched by Venezuelan brothers Gabriel and Jose Luis Gonzalez in partnership with Peruvian chef Virgilio Martinez. Their signature dishes include sea bream ceviche (a lime-preserved raw fish dish) and suckling pig done in the “Andes” style.

Martinez is also a chef consultant for the Central Restaurante (http://centralrestaurante.com.pe/es/) in Lima, Peru. It was named one of The World’s 50 Best Restaurants by S. Pellegrino (theworlds50best.com).

Gabriel Gonzalez moved to London from Paris two years ago, and is surprised at how quickly he and his colleagues have made an impact.

“It was definitely not expected. … It’s just incredible, it definitely sets a precedent for Peruvian food and gives it a stamp of credibility and a lot of promise, it’s just amazing,” he told the London Evening Standard.

As another mark of the rising profile of Latin American food, the first edition of Latin America’s 50 Best Restaurants was held in Lima in September 2013 (theworlds50best.com/latinamerica/en/). In its press release, it said: “The evolution and robustness of gastronomy in Latin America has demanded recognition.”

It comes after the first expansion of the awards to Asia with Asia’s 50 Best Restaurants, held in Singapore in February 2013.

The ceremony in Peru is being seen as another vote of confidence in Peru’s innovative restaurant scene. Other acknowledgements of the country’s culinary success include winning in 2012 the World’s Best Culinary Destination by the World Travel Awards. The Organization of American States (OAS) also declared Peru’s cuisine part of America’s World Heritage (oas.org).

The number of South American restaurants on the The World’s 50 Best Restaurants list increased to six in 2013, two more than in 2012. This year’s winners include the innovative Brazilian restaurant D.O.M in Sao Paulo, and Astrid y Gaston (http://astridygaston.com/en/) in Lima.

D.O.M. Restaurante’s (http://domrestaurante.com.br/pt-br/home.html) chef Alex Atala is a passionate champion of Brazil’s traditional ingredients and dishes. He trawls the Amazon rainforest for new taste sensations and then deploys them in his inventive dishes in the restaurant. D.O.M. was named the best restaurant in South America for four years in a row by The World’s 50 Best Restaurants.

At Astrid y Gaston in Lima, an innovative take on menus shows how the restaurant stands out from the rest. The restaurant uses storytelling techniques to build up interest in its various menus. One example is the Winter 2013 Tasting Menu with its title El Viaje, meaning trip or journey. “It is a story told through a long sequence of courses divided into five acts, a mise en scène where we attempt to take the life experiences of a restaurant beyond its traditional gastronomic limits,” the restaurant says on its website.

“During each of the five acts, the dishes, the music, the clothing, the decoration, the tableware and the book that accompanies this experience, will narrate the turning points that define this life journey”

Astrid y Gaston is a partnership between a German and a Peruvian who set out to challenge the dominance of French haute cuisine and started the restaurant in 1994.

“Twenty years later, much has happened with Peru and Peruvian cuisine. Unlike those times when inspiration was sought in foreign ingredients and recipes, when cooks locked themselves up in their kitchens and lived with suspicion of their peers, ignoring the farmers’ work and the social and ecological challenges of the environment, today’s cooking is fortunately getting a breath of fresh and beautiful air.”

Another cuisine pioneer is Pujol (pujol.com.mx) in Mexico City, Mexico. It serves Mexican cuisine focused on local ingredients blending ancient and modern culinary techniques. The food is original and exciting: for starters, there is baby corn and chicatana ant, aguachile with chia seeds and avocado, suckling lamb taco, and for desert, fermented plantain, macadamia nuts, plantain vinegar and chamomile flower petals.

The potential is enormous for marrying these restaurant innovators with the many small-scale farmers and food producers to boost awareness of their products and increase incomes across South and Central America.

Published: November 2013

Resources

1) Latin American food pyramid: A guide to eating a healthy diet using common foods from Latin America. Website: http://www.foodpyramid.com/food-pyramids/latin-american-pyramid/

2) Visit Peru: Peru Tourism Bureau: Includes extensive information on Peruvian food and cuisine. Website: http://visitperu.com/

3) How functional foods play critical roles in human health by Guangchang Pang, Junbo Xie, Qingsen Chen and Zhihe Hu. Website: http://www.sciencedirect.com/science/article/pii/S2213453012000055

Southern Innovator Issue 3: Agribusiness and Food Security: Website: http://books.google.com.au/books?id=-Y6Gnqx9PIcC&source=gbs_similarbooks_r&cad=2

Development Challenges, South-South Solutions was launched as an e-newsletter in 2006 by UNDP’s South-South Cooperation Unit (now the United Nations Office for South-South Cooperation) based in New York, USA. It led on profiling the rise of the global South as an economic powerhouse and was one of the first regular publications to champion the global South’s innovators, entrepreneurs, and pioneers. It tracked the key trends that are now so profoundly reshaping how development is seen and done. This includes the rapid take-up of mobile phones and information technology in the global South (as profiled in the first issue of magazine Southern Innovator), the move to becoming a majority urban world, a growing global innovator culture, and the plethora of solutions being developed in the global South to tackle its problems and improve living conditions and boost human development. The success of the e-newsletter led to the launch of the magazine Southern Innovator.

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ORCID iD: https://orcid.org/0000-0001-5311-1052.

© David South Consulting 2023

China Pushing Frontiers of Medical Research

By David South, Development Challenges, South-South Solutions

SOUTH-SOUTH CASE STUDY

Cutting-edge medical research in China is promising to boost human health and development. Futuristic science is being conducted on a large scale and it is hoped this will increase the pace of discovery.

Around the world, rapid progress is being made in understanding the role played by genes and how they affect our overall health and susceptibility to diseases. Other developments are leading to the possibility of creating replacements for organs and other body parts that have been damaged through accidents, disease or genetic faults – without the need for organ donors.

Medical advances straight out of science fiction could be closer than many believe. By using machines and gene therapy, radical new methods will emerge to deal with damage done to human bodies as a result of accidents or disease. These solutions will become, in time, quicker, smaller and cheaper and will be available to more and more countries. They will spread outwards around the global South just as mobile phones and computing electronics have done.

In China, the government is investing heavily in this cutting-edge research and attracting investment and projects from around the world to increase the pace of progress in these areas.

In September 2013, Reuters reported that a 22-year-old man named Xiaolian in Fuzhou, China had a new nose grown on his forehead to replace his original nose that had been damaged in a car accident. Conventional reconstructive surgery was not possible, so this radical new approach was taken.

The advantages of growing a nose on the patient include a reduced chance of rejection by the body when the new organ is attached. Transplants of body parts from other people come with a high risk of rejection and require many drugs to prevent it. Using skin near where the transplant is to take place, on the face, improves the chances of success and the blood vessels in the forehead offer nourishment to grow the new nose.

The procedure works like this: tissue expanders are placed on the patient’s forehead. As it grows, the doctors cut the mass of tissue into the shape of a nose and cartilage from the patient’s ribs is placed inside to give the nose shape. The new proboscis (http://en.wikipedia.org/wiki/Proboscis) grows under the skin until it is the right size and then transplanted onto the patient’s face where their old nose was.

Many believe this is just the beginning and that in the future replacement organs will be also grown in a lab. And this is where the new medical technology of 3D bioprinting comes into play.

3D printing machines (http://www.k8200.eu/), or fabricators, can create 3D objects based on a design sent from a computer. This concept is now also being applied to biological materials with 3D bioprinters.

Hangzhou Dianzi University of Electronic Science and Technology (hdu.edu.cn) in China launched the Regenovo 3D Bio-printer in August 2013. It prints living tissue and looks like a silver metal frame with various nozzles situated above a platform for printing the tissue. Its makers claim it can print a liver in 40 minutes to an hour or an ear in 50 minutes.

A sheet of hydrogel is placed on the platform and then the bioprinter deposits cells into the hydrogel. As the process is repeated over and over again, layer after layer, a 3D biological structure emerges.

Unique Technology (sinounic.com) in Qingdao, Shandong province has also launched a 3D printer called “Re-human”. It is capable of printing at 15 microns and can operate in temperatures of between 0 and 300 degrees Celsius. Scientists there are working on clinical trials of 3D-printed tissue scaffolds and bones.

China is very advanced in the development of 3D manufacturing technology, and is home to the world’s largest 3D printers, developed by Dalian University of Technology (http://www.dlut.edu.cn/en/). Another Chinese company pioneering this technology is Shaanxi Hengtong Intelligent Machines (http://www.china-rpm.com/english/), which sells various laser-using rapid prototyping machines and 3D machines.

Around the world, bioprinting is currently being pioneered for printing heart valves, ears, artificial bones, joints, vascular tubes, and skin for grafts.

The number of scientific papers mentioning bioprinting tripled between 2008 and 2011 according to Popular Science. But why is this happening? Three things are occurring at once: sophisticated 3D printers are now available, there are significant advances in regenerative medicine, and CAD (computer-aided design) (http://en.wikipedia.org/wiki/Computer-aided_design) software continues to become more advanced.

San Diego, California’s Organovo (organovo.com), a company that designs and creates functional human tissues using 3D bioprinting, has big ambitions for the technology.

“Getting to a whole organ-in-a-box that’s plug-and-play and ready to go, I believe that could happen in my lifetime,” its chief technology officer, Sharon Presnell, told Popular Science.

In the field of gene science, China is also investing significant resources to make rapid progress. China is working to make its genetic research industry into one of the country’s pillar industries.

Beijing Genomics Institute (BGI) (http://www.genomics.cn/en/index) is the world’s largest genome-mapping institute, with more than 1,000 biological analysis devices working with top-of-the-line genome-sequencing machines. What makes BGI different is scale: it can handle data in vast quantities and industrialize its research, according to China Daily.

The China National Genebank in Shenzhen (http://www.nationalgenebank.org/en/index.html), associated with BGI and its Cognitive Genetics Project, is one of the largest gene banks in the world. It has collected the DNA (http://www.biologycorner.com/bio1/DNA.html) samples of some of the world’s smartest people to sequence their genomes and work out which alleles (http://www.sciencedaily.com/articles/a/allele.htm) determine human intelligence.

But what will they do with this information? By doing embryo screening, it will be possible to pick the brightest zygote (http://en.wikipedia.org/wiki/Zygote) and ensure an entire generation’s intelligence is increased by five to 15 IQ (intelligence quotient) points. This could have a significant impact on the country’s economic performance, the researchers believe, and help in the country making more rapid economic and development gains. This line of research is also seen globally as being fraught with ethical dilemmas and is controversial.

But the Chinese researchers believe the country’s economic productivity, business success, international competitiveness and the amount of innovation in the economy could all increase with an IQ boost.

The eggs are fertilized in the lab with the father’s sperm and the embryos are tested until they find the smartest one.

Embryo analysis could take place on a large scale in a few years. But it is not just better brains that are possible with this technique: choices can be made about hair and eye colors, and physical attributes such as body shape.

This level of research is benefiting from vast investments in higher education in China.

And it isn’t just human beings receiving the vast investment in gene research.

To help agriculture and agribusiness, the National Center for Gene Research (NCGR) (ncgr.ac.cn) is mapping and sequencing the rice genome, and genomes of other organisms. Since 2007, it has been using the latest generation sequencing technology to map the rice genome to identify common genetic factors. It has 50 million base pairs of rice genomic DNA sequences in its public database. It is hoped this will lead to more robust rice varieties that can withstand disease and climate fluctuations and help meet the food needs of a growing global population.

Published: November 2013

Resources

1) Wake Forest Institute for Regenerative Medicine: Wake Forest Innovations was created in 2012 as a new operating division of Wake Forest Baptist Medical Center. As the Medical Center’s technology commercialization arm, Wake Forest Innovations supports scholarship, investing in the innovative potential of academic and clinical communities and helping translate ideas and discoveries into valuable commercial products and services. Website: http://www.wakehealth.edu/WFIRM/

2) DEKA Research & Development: DEKA Research and Development Corporation is an established company focused on the development of radical new healthcare technologies that span a diverse set of applications. Website: http://www.dekaresearch.com/index.shtml

3) Organovo: Organovo design and create functional human tissues using proprietary three-dimensional bioprinting technology. The goal is to build living human tissues that are proven to function like native tissues. Website: http://www.organovo.com/

Project Cyborg: A web-based platform geared toward nanoscale molecular modeling and simulations for cellular biology. Website: http://www.autodeskresearch.com/projects/cyborg
Make your own bioprinter: DIYBioPrinter: Step by step construction of a bioprinter from an old HP 5150 inkjet printer. Website: http://www.instructables.com/id/DIY-BioPrinter/

6) Autodesk is working on CAD software for bioprinting. Website: autodesk.co.uk

7) BGI Cognitive Genetics Project: BGI Cognitive Genomics is an interdisciplinary research group at BGI, one of the largest genomics institutes in the world. The focus is human cognition, with emphasis on the use of tools made available by rapid advances in DNA sequencing technology. Website: https://www.cog-genomics.org/

8) Institute of Genetics and Developmental Biology Chinese Academy of Sciences: The mission of the institute is to address fundamental questions in genetics and developmental biology and to develop new technologies for the uses in health care and agriculture sciences as well as to meet the nation’s strategic needs in science and technology. Scientists in the institute use both plant and animal models to address fundamental questions in life sciences, such as genetic control of growth and development, gene expression, signal transduction, structural and functional genomics, biotech and molecular breeding, bioinformatics and systems biology. As China owns the biggest agricultural market in the world, researchers in the Institute have also made significant efforts on water saving agriculture and agronomic studies, focusing on the improvement of crop productivity and quality as well as bio-safety. Website: http://english.genetics.cas.cn/au/

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