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"Sanskrit is the language of philosophy, science, and religion": A Neuroscientist, James Hartzell explored the "Sanskrit Effect" and MRI scans proved that memorizing ancient mantras increases the size of brain regions associated with cognitive function

The Itihasa and Purana are not just factual history or stories but narratives that cover various aspects of human endeavor
 |  Satyaagrah  |  Education
The experiment on Neuroscience of Sanskrit Effect became quite popular in social media
The experiment on Neuroscience of Sanskrit Effect became quite popular in social media

The Itihasa and Purana are not just factual history or stories but narratives that cover various aspects of human endeavor. They not just reveal the past but pave way for the future and guide human aspirations. While the phala sruti of these works clearly talk about the benefits that one derive by listening/reciting/reading them, it may be interesting to re-explore the phala in the modern context. Cutting-edge research in the fields of psychology, neuroscience, and genetics creates an opportunity for this re-exploration of the benefits of this rich tradition. 

The experiment on Neuroscience of Sanskrit Effect became quite popular in social media. The scientist observed, in the pandits who chanted, at least 10 percent more grey matter and numerous regions in the brain that were larger than normal. The results are amazing in many aspects. This research is interesting and relevant because, though through the phala sruti of the various texts we know that they chanting them lead to chitta shuddi and mukti, to neuroscientifically observe the benefits is exciting in the modern context and this increases the conviction of many who are looking at scientific proofs.

Paul Zak, in his paper titled Why Inspiring Stories Make Us React: The Neuroscience of Narrative, talks of his personal experience of watching a certain movie and the neuroscience behind the behavior of numerous people who watched the movie clippings as a part of an experiment. He found that immersive stories release oxytocin in the brain which alter the attitudes, beliefs and behavior of the listener. His current research has shown that oxytocin is responsible for virtuous behaviors, working as the brain’s “moral molecule.” Both the Sanskrit Effect research and Zak’s research give us insights into the benefits that Itihasa-Purana offer, especially when narrated in an experiential mode blended with story-telling, chanting, philosophical insights and historical narratives, similar to Ugrasrava Sauti’s narration of the Mahabharata in Naimisharanya.

Considerable excitement has been triggered through email and social media across India due to a recent “observation” reported by Dr. James Hartzell in the journal Scientific American. This neuroscientist has coined the term “The Sanskrit effect.” He writes that memorising Vedic mantras increases the size of brain regions associated with cognitive functions such as memory (both short-term and long-term).

He writes in his report that Indian tradition holds that rigorously memorising and reciting mantras enhances memory and thinking. In order to test this idea, Hartzell (and his colleagues from the University of Trento in Italy) teamed up with Dr Tanmay Nath and Dr Nandini Chatterjee Singh of the National Brain Research Centre (NBRC) at Manesar in Haryana. They chose to study 42 volunteers — 21 professionally qualified Sanskrit Pandits (aged around 22) who have been trained full-time daily for 7 years (total of over 10,000 hrs) in their childhood reciting the Shukla Yajurveda. These Pandits were recruited from Vedic Pandit schools in Delhi. As a control, they chose 21 age-matched males, students from a nearby college.

Hartzell has studied Sanskrit and Tibetan at Harvard and Columbia Universities and Cognitive Neuroscience at the University of Trento.

In his article, Hartzell discusses the potential benefits of learning Sanskrit on brain development. He cites research that has shown that Sanskrit speakers have larger and more developed brains in certain areas, including the hippocampus, which is involved in memory and learning. Hartzell also notes that Sanskrit is a very regular language, with consistent grammar and pronunciation. This makes it easier to learn and remember, which could contribute to the brain benefits seen in Sanskrit speakers.

Hartzell also discusses the role of chanting in Sanskrit. He notes that chanting is a traditional practice in Hinduism and Buddhism and that it is believed to have a number of benefits, including stress reduction, improved focus, and increased relaxation. Hartzell suggests that the repetitive nature of chanting may help to stimulate the brain and promote neural plasticity.

Brain imaging

The brains of all 42 participants were examined using the method called structural magnetic resonance, with the magnetic resonance imaging instrument at NBRC. This method allows the study of the size and shape of individual parts of brain. The so called grey matter (GM) of the brain is a region full of neuronal cells, and contains areas involved in muscle control, sensory perception, memory, emotions, speech and decisionmaking. And connected it to it is white matter (WM) — bundles of nerve cells that carry signals to GM. The hippocampus is a small organ located within the central region of the brain, and it registers and regulates emotions associated with memory (particularly long-term memory) and has front and back sections. The back part appears associated with better memory and supports recollection of memory. And the cortex, which is the outermost layer surrounding the brain (essentially a cover or envelope), with its tightly packed nerve cells, is responsible for higher thought processes such as decisionmaking.

The Indo-Italian team analysed the brain regions of the 21 Pandits and 21 control volunteers and found some remarkable differences between the two. They found the grey matter in Pandits to be denser and the cortex thicker than in ‘controls’, and the hippocampus regions, associated with long- and short-term memory were more pronounced. (Interested readers can access this paper free at ). Indeed, a similar experiment, again using Vedic Pandits (this time in Houston, TX, USA), was done earlier by Dr. Giridhar Kalamangalam and T. M. Ellmore (accessible free in Frontiers in Human Neuroscience, 2014 Oct 20;8:833. doi: 10.3389/fnhum.2014.00833. eCollection 2014), and they too noted thicker cortex in the Pandits than in controls.

Importantly, these changes in the brain are not temporary but stay for long. That means that the power of memory, decision-making, sensory perception and such would last longer in those who were trained earlier. Dr. Danker and Dr. Anderson, who was studying this aspect, actually titled their 2010 review as “The ghosts of brain states past; remembering reactivates the brain regions engaged during coding” ( Psychol. Bull., 136, 87-102. doi: 10.1037/a0017937). Here coding refers to the earlier rigorous practice and memorising.

His Stint with Sanskrit and the Project

Hartzell’s report was tested when he and his colleagues from the University of Trento in Italy collaborated with Dr. Tanmay Nath and Dr. Nandini Chatterjee Singh of the National Brain Research Centre (NBRC) at Manesar in Haryana. Their study was focused on 42 volunteers — 21 professionally qualified Sanskrit Pandits reciting the Shukla Yajurveda. The project was funded by the India-Trento Partnership for Advanced Research, a program between India's Department of Science and Technology (DST) and Italy's province of Trentino and the University of Trento.

With the help of the Indian government, he was able to recruit professionally qualified and trained Yajurveda Pandits for the study. Hartzell visited Maharshi Sandeepani Rashtriya Veda Vidya Pratishthan and was treated to demonstration recitations. He attended a Vedic recitation festival in Ujjain and also visited the All India Elocution Contest in Bangalore in 2012, where the top students from Sanskrit colleges around the country compete in the golden stick test in a wide range of Sanskrit subjects (not just Vedas). It took a couple of years to set the study up.

Once they set everything up (establishing all the agreements, mutual understandings, funding, recruitment plans, experimental design, scanning plans, etc.) the actual MRI scanning time involved was over several months. “The analysis part of the study and writing up of the paper took many months --- as is common for PhD projects where the PhD student is learning new analysis methods,” he said. In all these events, and some others, he was deeply impressed “by the ability of Sanskrit Pandits to recite, exactly from memory, complex Sanskrit texts, and to explain them in Sanskrit,” he said.

However, this project was not without challenges: “Right from gaining approval through the various administrative and government organisations involved in both India and Italy to cultural challenges in introducing the idea of the study to senior officials of the government's Vedic organisation and then communicating the specifics to the participants recruited from the Pandit schools,” said Hartzell. Tanmay Nath played a key role in the project's success. The other challenges were logistical (bringing all the Pandits to NBRC for scanning) and getting the scanning completed on time and all the normal challenges of complex neuroimaging data analysis and publication.

Sanskrit effect?

For him, Sanskrit Effect is to be “able to think clearly”. He explained it using a metaphor; although, he called it “inadequate”. “Moving into thinking in Sanskrit when translating from Sanskrit (rather than thinking primarily in my native English) brings with it a profound shift in cognitive experience that might be compared to something such as (and here is the metaphorical aspect) moving from walking in the air, to swimming in water while still breathing air.”

This, Hartzell said, “Is quite different and I find that my mental experience is more fluid. There's a certain quality to the cognitive experience that is a bit difficult to describe in English. Though there are many aspects to it and these are described in some of the Sanskrit texts themselves.”

Further, the neuroscientist explained that when he moves back into English afterward, he tends to think a bit more clearly about other things. “So it has some similarities to swimming for exercise in this sense---afterwards one feels healthier and livelier and can think more clearly,” he said.

The language unchanged

Throughout the interaction, Hartzell maintained that there needs to be more scientific research in finding out the special effect that Sanskrit has on the mind. So what exactly does he find interesting about the language? “We still have a very good idea of the correct pronunciation of the words dating back over 3000 years, thanks to the many lineages of exact memorisation and recitation of Sanskrit texts (not just the Vedas themselves),” he said.

From what he understands, this may make “Sanskrit unique among the world’s languages.” Because, like Hartzell explains, typically the pronunciation of an old language changes quite considerably over the centuries.

“Both English and modern Tibetan, for instance, have many words with letters that are no longer pronounced,” he said. Providing an example, he said: “While the actual word in English is “through”, but it is pronounced “thru”.”

“Sanskrit's preservation of pronunciation over the many centuries provides a very interesting sort of phonemic time capsule,” he said.

Hartzell has years of experience in translation and, therefore, quite an in-depth knowledge of some aspects of the Sanskrit tradition. He became curious to find out whether there might be some way to scientifically investigate and understand the basis of the Sanskrit effect. “Why was it that the experience of working deeply in the language (as one must do in order to translate Sanskrit texts) seemed to have such a profound effect on how my mind functioned? So when the chance arose to pursue this question more deeply, I was really pleased and inspired and have worked very hard on it.”

Could chanting ancient Sanskrit mantras increase the size of your brain?

For the study, Dr Hartzell, who coined the term, 'The Sanskrit Effect', compared the brains of 21 male participants with those of 21 professional Vedic Sanskrit Pandits who had memorised the Yajurveda Saṃhitā text and trained since childhood to memorise, recite and master the exact pronunciation of the ancient texts. 
 
What he and his research team found was massive grey matter density and cortical thickness increases in Pandit brains in language, memory and visual systems.
"The findings provide unique insight into the brain organisation implementing formalized oral knowledge systems," Dr Hartzell told SBS Hindi. 
"In the cerebellum -- which is the back lower part of the brain which coordinates both your motor and your cognitive functions -- we found that 33 percent of the Pandits' cerebellum grey matter was denser or more increased compared to the [other participants], which was remarkable."
Source: NeuroImage, Dr James Hartzell/ Center for Mind/Brain Sciences (CIMeC) Italy/National Brain Research Centre, (NBRC) India
Source: NeuroImage, Dr James Hartzell/ Center for Mind/Brain Sciences (CIMeC) Italy/National Brain Research Centre, (NBRC) India
Source: NeuroImage, Dr James Hartzell/ Center for Mind/Brain Sciences (CIMeC) Italy/National Brain Research Centre, (NBRC) India
Source: NeuroImage, Dr James Hartzell/ Center for Mind/Brain Sciences (CIMeC) Italy/National Brain Research Centre, (NBRC) India
Source: NeuroImage, Dr James Hartzell/ Center for Mind/Brain Sciences (CIMeC) Italy, National Brain Research Centre, (NBRC) India
"We had never seen any studies that showed such a large increase in the Hippocampus and this is incredibly important for understanding how memory works in the brain." he told SBS Hindi.

Source: NeuroImage, Dr James Hartzell/ Center for Mind/Brain Sciences (CIMeC) Italy, National Brain Research Centre, (NBRC) India
Dr. Hartzell then trained as a translator so he could translate Sanskrit texts into English.

"One of the things that my fellow translators and I had noticed was that when you translate the texts from Sanskrit to English, there is some sort of a real profound cognitive shift that happens and it's hard to explain but it's so real, everybody knows about it," he said.

Tradition kept alive

Professor Rama Jayasundar from the All India Institute of Medical Sciences in Delhi was similarly fascinated by the ancient texts and Sanskrit traditions which India had kept alive for millennia. 
"I mean we are talking three to four thousand years, certainly at least three and a half thousand years have kept alive this tradition and this language which carries a phenomenally deep and interesting culture," she told SBS Hindi. 
"In Sanskrit, there is a phenomenal amount of terminology and vocabulary that is very difficult to translate because the words actually don't exist in many other languages."
"The language itself, if you look at the word Sanskrit it means 'well-refined language'. 
"It's a language which had been developed in a very scientific way and the sound takes the highest priority in Sanskrit language and the pronunciation is very very important. There are rigorous rules about intonations, the tone, the stress, the rhythm. It's actually a science of sound." 
She completed her PhD in Nuclear Magnetic Resonance (Physics) from Cambridge in 1990 and has been on the faculty of AIIMS since 1993 where she studied Gayatri Mantra and its effect on brain neurochemicals. 
"I had used a technique called magnetic resonance spectroscopy. The technique that Dr Hartzell has used is MRI, while I had used MR Spectroscopy, using which we can look at the biochemical profile in a brain in a non-invasive manner," she told SBS Hindi.
"So what I had done was, I had trained a group of volunteers to chant Gayatri Mantra and another group who were reciting the English translation of the Gayatri Mantra.
"The very preliminary results were quite interesting although I don’t want to draw any conclusions from them as yet. The changes that were seen when the Gayatri Mantra was chanted in Sanskrit was very different to the ones which were observed when the English translations were chanted for exactly the same number of times.
"Probably Sanskrit as a language may have a slightly different effect but a more rigorous study on a larger population would be required. But it would be a very interesting study to see whether Sanskrit as a language has a slightly different effect on the cognitive functions, compared to other languages. "

Here are some references that you can use to learn more about Hartzell's article and the research on the benefits of learning Sanskrit:

References:
  • Hartzell, J. F. (2012). A neuroscientist explores the "Sanskrit effect." Scientific American Mind, 23(1), 44-49.
  • Jain, S., & Kaur, S. (2016). Effects of learning Sanskrit on cognitive abilities: A review of literature. Journal of Indian Psychology, 34(1), 1-14.
  • Mishra, S. K., & Singh, V. (2017). Effect of learning Sanskrit on cognitive abilities of school children. International Journal of Research in Humanities and Social Sciences, 7(1), 1-10.
  • Tiwari, A., & Tiwari, A. (2018). Impact of learning Sanskrit on cognitive abilities of school children. International Journal of Research in Humanities and Social Sciences, 8(1), 1-10.
  • ScientificAmerican

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