History of Printing Medical Texts: Difference between revisions

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==Medicine in the Americas, 1610-1920==
Medical texts throughout history have shown us how societies have changed their approach to treating illness and disease over time, and how drastically these approaches may differ from society to society. This page specifically focuses on the printing of medical texts across different cultures and societies throughout history.
Inside the database, the largest collection of texts is [https://collections.nlm.nih.gov/?f%5Bdrep2.isMemberOfCollection%5D%5B%5D=DREPMIA Medicine in the Americas], which contains books ranging from the years 1610 to 1920. As of November 2020, the collection has over 28,000 entries
==Ancient Civilizations==
==The Work of Andreas Vesalius==
[[File:Medical recipe concerning poisoning. Terracotta tablet, from Nippur, Iraq, 18th century BCE. Ancient Orient Museum, Istanbul.jpg|thumb|A medical recipe concerning poisoning written in Cuneiform from Nippur, Iraq, 18th century BCE]]
===Cuneiform in Mesopotamia===
The oldest Babylonian medical texts date back to around 2000 BCE, and were written in Sumerian through [https://en.wikipedia.org/wiki/Cuneiform cuneiform],<ref>“Medical Texts.” Cuneiform Digital Library Initiative Wiki, cdli.ox.ac.uk/wiki/doku.php?id=medical_texts.</ref> which involved making wedged indentations onto soft surfaces like clay, or harder surfaces like stone. The most well-known and extensive medical text was the ''Sakikkū'' or ''Diagnostic Handbook'', written in Akkadian by [https://en.wikipedia.org/wiki/Esagil-kin-apli Esagil-kin-apli] during the reign of Adad-apla-iddina (1069–1046 BCE).<ref>Heeßel, N. P. "Diagnosis, Divination and Disease: Towards an Understanding of the Rationale Behind the Babylonian Diagnostic Handbook." Studies in Ancient Medicine, vol. 27, 2004, pp. 97</ref>. The ''Diagnostic Handbook'' was comprised of a total of 40 tablets separated into 6 chapters, and contained information about symptoms, empirical observations, and logical rules regarding prognosis and diagnosis.<ref>Biggs, Robert D. Magic and Rationality in Ancient Near Eastern and Graeco‐Roman Medicine. vol. 66, The University of Chicago Press, 2007.</ref> These logcal rules somewhat resemble modern approaches to medicine and diagnoses, in which disease, treatment, and chance of recovery are determined through inspecting and observing the patient's symptoms.
 
===Papyrus in Egypt===
One of the earliest forms of a paper-like writing surface was papyrus in ancient Egypt. The ancient Egyptians used the stem of the papyrus plant as a material to make many goods, including paper. The [https://en.wikipedia.org/wiki/Edwin_Smith_Papyrus ''Edwin Smith Papyrus''], written around 1700 BCE, is believed to be the oldest medical text that references the practice of surgery.<ref>Feldman, R. P., and James T. Goodrich. "The Edwin Smith Surgical Papyrus." Child's Nervous System, vol. 15, no. 6, 1999, pp. 281-284.</ref> The medical information could be dated even further back, since the author was actually attempting to copy a manuscript dating back to around 3000-2500 BCE. The text, written on a 15 foot long papyrus scroll, described various diseases, cures, and anatomical observations. Because the surviving text solely deals with surgical cases, it is believed that the ''Edwin Smith Papyrus'' was originally intended to be a surgical textbook. It detailed a total of 48 cases, each divided into 4 or 5 sections.
[[File:Images from Edwin Smith Papyrus Wellcome L0003140.jpg|thumb|none|A page from the Edwin Smith Papyrus with Hieroglyphic transliterations on the right]]
 
==Transcription and an Exception==
Prior to the invention of the printing press, the vast majority of medical texts were written and copied by hand. We see many important medical texts from various cultures transcribed on a variety of paper-like materials, like papyrus, [https://en.wikipedia.org/wiki/Amate amate], and parchment. Written versions of "texts" that were originally transmitted orally, like the [https://en.wikipedia.org/wiki/Atharvaveda Atharvaveda] in India and the [https://en.wikipedia.org/wiki/Iliad Iliad] in Greece begin to appear. While there is much proliferation in terms of medical knowledge and texts, there is very small growth in terms of printing technology until the invention of mechanical printing around the 15th century<ref>"Mechanical Printing and Its Impact on Medicine ." Science and Its Times: Understanding the Social Significance of Scientific Discovery. Encyclopedia.com. 16 Oct. 2020.</ref>. The major exception is woodblock printing in China, which could be traced back to as early as 220 AD as a method of printing onto cloth.<ref>Hind, Arthur M. An Introduction to a History of Woodcut, with a Detailed Survey of Work done in the Fifteenth Century. in Two Volumes. , 1935.</ref> Woodblock printing for texts became popular around the 7th century and was a revolutionary technology that facilitated publishing of many different texts, which also helped spread knowledge and literacy. Of course, medical texts were no exception; finely printed medical texts were being printed thorugh woodblock as early as the 9th century.<ref>Meggs, Philip B. A History of Graphic Design. 3rd ed. New York: John Wiley & Sons, 1998.</ref>
 
==The Renaissance and Mechanical Printing==
The invention of mechanical printing had a huge impact on books, including medical texts. It immediately improved anatomical illustrations and moedels, as well as clearer diagrams of procedures.<ref>"Mechanical Printing and Its Impact on Medicine ." Science and Its Times: Understanding the Social Significance of Scientific Discovery. Encyclopedia.com. 16 Oct. 2020.</ref> Because orignals can now be used to reproduce identical copies, illustrations became more elaborate, and artists ptrated paying greater attention to their details and accuracy. One of the most important medical texts arose during this era of book printing: ''[https://en.wikipedia.org/wiki/De_humani_corporis_fabrica De humani corporis fabrica libri septem]'' by Andreas Vesalius
 
===De humani corporis fabrica libri septem===
===De humani corporis fabrica libri septem===
A very well-preserved copy of the Vesalius' [https://www.wdl.org/en/item/19493/ De humani corporis fabrica libri septem] can be found in the World Digital Library.  
[[File:De humani corporis fabrica libri septem Wellcome L0063044.jpg|thumb|The "second muscle man" from a page of De humani corporis fabrica libri septem]]
[https://en.wikipedia.org/wiki/Andreas_Vesalius Andreas Vesalius] (31 December 1514 – 15 October 1564) was a Renaissance physician in the 16th century who played a major role in advancing the study of anatomy through his most famous work, ''[[https://en.wikipedia.org/wiki/De_humani_corporis_fabrica De humani corporis fabrica libri septem]'' ("On the fabric of the human body in seven books"). Vesalius believed that anatomy could only be taught and learned through dissection and observation,<ref>Baigrie, Brian S. Scientific Revolutions : Primary Texts In the History of Science. Upper Saddle River, N.J.: Pearson Prentice Hall, 2004.</ref> which was reflected in his detailed anatomical models and descriptions. His conception of the human body as a system of interconnected parts pioneered a new method of studying and teaching anatomy that closely resembles modern practices.<ref>Cambiaghi, Marco. "Andreas Vesalius (1514–1564)." Journal of Neurology, vol. 264, no. 8, 2017, pp. 1828-1830.</ref> Vesalius' magnum opus, ''De humani corporis fabrica libri septem'', was a collection of seven different books that each focused on a different component of the human body:
#The Bones and Cartilages
#The Ligaments and Muscles
#The Veins and Arteries
#The Nerves
#The Organs of Nutrition and Generation
#The Heart and Associated Organs
#The Brain
Vesalius' work was not particularly renowned its content, but rather for the 250+ illustrations of the human body. The books were printed using woodblock engravings, which allowed for incredible precision and detail. While the specific artists and woodcutters that Vesalius employed are unknown, it is generally agreed upon that the illustrations came from the "circle of [https://en.wikipedia.org/wiki/Titian Titian]," and Titian himself chose the woodcut that would be used to reproduce the drawings.<ref>Goree, John A. "The Woodblocks of Vesalius and the Printings: From the Renaissance to the Modern Era." Printing History, no. 16, 2014, pp. 3.</ref> Vesalius would ultimately use 254 woodblocks for the anatomical illustrations, and 22 more would be used in another version of the books called ''De humani corporis fabrica librorum epitome'', commonly referred to as ''Epitome''.
 
Although the artistic sources remain unknown, the illustrations and figures in Vesalius' works masterfully combined elegance and anatomical accuracy, and greatly surpassed those in any other medical texts at the time. A very well-preserved [https://www.wdl.org/en/item/19493/ copy] of the ''De humani corporis fabrica libri septem'' can be found in the World Digital Library.
==Modern Medical Texts and the Digital Era==
With the improvements in book manufacturing as well as our knowledge of human anatomy and physiology that we've made in the past century, medical texts are now much more detailed and accurate in terms of content and any illustrations or diagrams. With the transition into the digital era, the majority of medical journals and texts today can be found online through databases that are available to the general public, like [https://pubmed.ncbi.nlm.nih.gov/ PubMed]. It would be fair to say that the improvement of modern medical texts is much more hindered by our lack of knowledge rather than printing. While it seems like we've already reached the limit in terms of book printing, we are constantly expanding our understanding of human physiology through research as well as creating new and innovative technologies.  
==Resources==
==Resources==
*The National Library of Medicine (NLM) has a [https://www.nlm.nih.gov/hmd/collections/books.html database] of rare medical books and journals that have been scanned and digitalized. New books are scanned and added every day.
*[https://cudl.lib.cam.ac.uk/collections/treasures Cambridge Digital Library: Treasures of the Library]
*[https://www.wdl.org/en/ World Digital Library]

Latest revision as of 07:48, 11 December 2020

Medical texts throughout history have shown us how societies have changed their approach to treating illness and disease over time, and how drastically these approaches may differ from society to society. This page specifically focuses on the printing of medical texts across different cultures and societies throughout history.

Ancient Civilizations

A medical recipe concerning poisoning written in Cuneiform from Nippur, Iraq, 18th century BCE

Cuneiform in Mesopotamia

The oldest Babylonian medical texts date back to around 2000 BCE, and were written in Sumerian through cuneiform,[1] which involved making wedged indentations onto soft surfaces like clay, or harder surfaces like stone. The most well-known and extensive medical text was the Sakikkū or Diagnostic Handbook, written in Akkadian by Esagil-kin-apli during the reign of Adad-apla-iddina (1069–1046 BCE).[2]. The Diagnostic Handbook was comprised of a total of 40 tablets separated into 6 chapters, and contained information about symptoms, empirical observations, and logical rules regarding prognosis and diagnosis.[3] These logcal rules somewhat resemble modern approaches to medicine and diagnoses, in which disease, treatment, and chance of recovery are determined through inspecting and observing the patient's symptoms.

Papyrus in Egypt

One of the earliest forms of a paper-like writing surface was papyrus in ancient Egypt. The ancient Egyptians used the stem of the papyrus plant as a material to make many goods, including paper. The Edwin Smith Papyrus, written around 1700 BCE, is believed to be the oldest medical text that references the practice of surgery.[4] The medical information could be dated even further back, since the author was actually attempting to copy a manuscript dating back to around 3000-2500 BCE. The text, written on a 15 foot long papyrus scroll, described various diseases, cures, and anatomical observations. Because the surviving text solely deals with surgical cases, it is believed that the Edwin Smith Papyrus was originally intended to be a surgical textbook. It detailed a total of 48 cases, each divided into 4 or 5 sections.

A page from the Edwin Smith Papyrus with Hieroglyphic transliterations on the right

Transcription and an Exception

Prior to the invention of the printing press, the vast majority of medical texts were written and copied by hand. We see many important medical texts from various cultures transcribed on a variety of paper-like materials, like papyrus, amate, and parchment. Written versions of "texts" that were originally transmitted orally, like the Atharvaveda in India and the Iliad in Greece begin to appear. While there is much proliferation in terms of medical knowledge and texts, there is very small growth in terms of printing technology until the invention of mechanical printing around the 15th century[5]. The major exception is woodblock printing in China, which could be traced back to as early as 220 AD as a method of printing onto cloth.[6] Woodblock printing for texts became popular around the 7th century and was a revolutionary technology that facilitated publishing of many different texts, which also helped spread knowledge and literacy. Of course, medical texts were no exception; finely printed medical texts were being printed thorugh woodblock as early as the 9th century.[7]

The Renaissance and Mechanical Printing

The invention of mechanical printing had a huge impact on books, including medical texts. It immediately improved anatomical illustrations and moedels, as well as clearer diagrams of procedures.[8] Because orignals can now be used to reproduce identical copies, illustrations became more elaborate, and artists ptrated paying greater attention to their details and accuracy. One of the most important medical texts arose during this era of book printing: De humani corporis fabrica libri septem by Andreas Vesalius

De humani corporis fabrica libri septem

The "second muscle man" from a page of De humani corporis fabrica libri septem

Andreas Vesalius (31 December 1514 – 15 October 1564) was a Renaissance physician in the 16th century who played a major role in advancing the study of anatomy through his most famous work, [De humani corporis fabrica libri septem ("On the fabric of the human body in seven books"). Vesalius believed that anatomy could only be taught and learned through dissection and observation,[9] which was reflected in his detailed anatomical models and descriptions. His conception of the human body as a system of interconnected parts pioneered a new method of studying and teaching anatomy that closely resembles modern practices.[10] Vesalius' magnum opus, De humani corporis fabrica libri septem, was a collection of seven different books that each focused on a different component of the human body:

  1. The Bones and Cartilages
  2. The Ligaments and Muscles
  3. The Veins and Arteries
  4. The Nerves
  5. The Organs of Nutrition and Generation
  6. The Heart and Associated Organs
  7. The Brain

Vesalius' work was not particularly renowned its content, but rather for the 250+ illustrations of the human body. The books were printed using woodblock engravings, which allowed for incredible precision and detail. While the specific artists and woodcutters that Vesalius employed are unknown, it is generally agreed upon that the illustrations came from the "circle of Titian," and Titian himself chose the woodcut that would be used to reproduce the drawings.[11] Vesalius would ultimately use 254 woodblocks for the anatomical illustrations, and 22 more would be used in another version of the books called De humani corporis fabrica librorum epitome, commonly referred to as Epitome.

Although the artistic sources remain unknown, the illustrations and figures in Vesalius' works masterfully combined elegance and anatomical accuracy, and greatly surpassed those in any other medical texts at the time. A very well-preserved copy of the De humani corporis fabrica libri septem can be found in the World Digital Library.

Modern Medical Texts and the Digital Era

With the improvements in book manufacturing as well as our knowledge of human anatomy and physiology that we've made in the past century, medical texts are now much more detailed and accurate in terms of content and any illustrations or diagrams. With the transition into the digital era, the majority of medical journals and texts today can be found online through databases that are available to the general public, like PubMed. It would be fair to say that the improvement of modern medical texts is much more hindered by our lack of knowledge rather than printing. While it seems like we've already reached the limit in terms of book printing, we are constantly expanding our understanding of human physiology through research as well as creating new and innovative technologies.

Resources

  1. “Medical Texts.” Cuneiform Digital Library Initiative Wiki, cdli.ox.ac.uk/wiki/doku.php?id=medical_texts.
  2. Heeßel, N. P. "Diagnosis, Divination and Disease: Towards an Understanding of the Rationale Behind the Babylonian Diagnostic Handbook." Studies in Ancient Medicine, vol. 27, 2004, pp. 97
  3. Biggs, Robert D. Magic and Rationality in Ancient Near Eastern and Graeco‐Roman Medicine. vol. 66, The University of Chicago Press, 2007.
  4. Feldman, R. P., and James T. Goodrich. "The Edwin Smith Surgical Papyrus." Child's Nervous System, vol. 15, no. 6, 1999, pp. 281-284.
  5. "Mechanical Printing and Its Impact on Medicine ." Science and Its Times: Understanding the Social Significance of Scientific Discovery. Encyclopedia.com. 16 Oct. 2020.
  6. Hind, Arthur M. An Introduction to a History of Woodcut, with a Detailed Survey of Work done in the Fifteenth Century. in Two Volumes. , 1935.
  7. Meggs, Philip B. A History of Graphic Design. 3rd ed. New York: John Wiley & Sons, 1998.
  8. "Mechanical Printing and Its Impact on Medicine ." Science and Its Times: Understanding the Social Significance of Scientific Discovery. Encyclopedia.com. 16 Oct. 2020.
  9. Baigrie, Brian S. Scientific Revolutions : Primary Texts In the History of Science. Upper Saddle River, N.J.: Pearson Prentice Hall, 2004.
  10. Cambiaghi, Marco. "Andreas Vesalius (1514–1564)." Journal of Neurology, vol. 264, no. 8, 2017, pp. 1828-1830.
  11. Goree, John A. "The Woodblocks of Vesalius and the Printings: From the Renaissance to the Modern Era." Printing History, no. 16, 2014, pp. 3.