Jigsaw Puzzle > Popular Themes > Human Body
Jigsaw Puzzle : Anterior cross section of spinal column revealing how vertebra fits round spinal cord
Jigsaw Puzzles from Fine Art Storehouse
Anterior cross section of spinal column revealing how vertebra fits round spinal cord
Unleash your creativity and transform your space into a visual masterpiece!
Dorling Kindersley
Media ID 13560063
© This content is subject to copyright
Anatomy Biology Biomedical Illustration Cross Section Diagram Differing Abilities Health Healthcare And Medicine Human Beings Human Body Human Nervous System Human Spine Human Vertebra Humans Nerve Cell Physiology Skeleton Spinal Cord Spine Structure Study Vertebra Afferent Autonomic Nervous System Central Nervous System Circuitry Human Body Part Neurology Paralysis Peripheral Nervous System Sensation Sensors Spinal Column
Jigsaw Puzzle (400 Pieces)
Explore the intricacies of the human body with our Anterior Cross Section of Spinal Column jigsaw puzzle from Dorling Kindersley's Fine Art Storehouse collection. This educational and engaging puzzle showcases an detailed anterior view of the spinal column, revealing how each vertebra perfectly fits around the spinal cord. A must-have for anyone with an interest in anatomy or puzzles, this high-quality puzzle is sure to provide hours of captivating entertainment while enhancing your knowledge of the complex structures of the spine. Engage your mind and challenge yourself with this captivating and informative puzzle.
400 piece puzzles are custom made in the UK and hand-finished on 100% recycled 1.5 mm millboard. There is a level of repetition in jigsaw shapes with each matching piece away from its pair. The completed puzzle measures 31x47cm and is delivered packaged in an attractive presentation box specially designed to fit most letter box slots
Jigsaw Puzzles are an ideal gift for any occasion
Estimated Product Size is 47.2cm x 31.5cm (18.6" x 12.4")
These are individually made so all sizes are approximate
Artwork printed orientated as per the preview above, with landscape (horizontal) or portrait (vertical) orientation to match the source image.
FEATURES IN THESE COLLECTIONS
> Fine Art Storehouse
> Photo Libraries
> Dorling Kindersley Prints
EDITORS COMMENTS
This print by Dorling Kindersley showcases an anterior cross section of the spinal column, providing a fascinating insight into how the vertebrae fit around the delicate spinal cord. The intricate diagram highlights the complexity and beauty of our central nervous system, revealing its circuitry and connection to various bodily functions. With a white background that accentuates every detail, this horizontal color image is not only visually striking but also serves as a valuable educational tool. It offers an in-depth study of human anatomy, biology, and physiology, shedding light on crucial aspects such as afferent pathways and the peripheral nervous system. The illustration's precision allows us to explore essential concepts related to health and medicine. From understanding sensations and sensors to comprehending paralysis or differing abilities caused by nerve cell impairments – this print encompasses it all. Moreover, it sheds light on both the parasympathetic and autonomic nervous systems' roles in maintaining our well-being. Whether you are a medical professional seeking reference material or simply fascinated by the wonders of human beings' neural tissue, this biomedical illustration is sure to captivate your attention. Its meticulous depiction of the spine's structure invites viewers into an awe-inspiring journey through our body's inner workings.
MADE IN THE UK
Safe Shipping with 30 Day Money Back Guarantee
FREE PERSONALISATION*
We are proud to offer a range of customisation features including Personalised Captions, Color Filters and Picture Zoom Tools
SECURE PAYMENTS
We happily accept a wide range of payment options so you can pay for the things you need in the way that is most convenient for you
* Options may vary by product and licensing agreement. Zoomed Pictures can be adjusted in the Basket.
