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photogenicfelines:

(Srinivas Dommety)

Hermoso

sheepfilms:

Tea Time

martineken:

 Dalton M. Ghetti

Dalton began learning how to handle tools at the young age of 6 when at school in Brazil, he and the other students used either a razor blade or a pocket knife to sharpen their pencils for drawing and writing.

Also, his mother was a seamstress. When Dalton was 8 years old, she taught him how to use a sewing needle to help her with simple projects like hemming and sewing buttons. At the age of 9, his parents gave him a set of metal tools for children, which he used to make his own boxes, toys and go-carts. This is also the age when he began sculpting with knives, chisels and a hammer. Ever since, he has created many objects out of all kinds of materials.

At first, he carved large objects; but in 1986, as a challenge to himself and because of his interest in small living things, like plants (moss) and insects (spiders and ants), he decided to create the smallest possible carvings that he could see with his naked eyes. One day, he picked up a working pencil and started carving it.

His idea is to bring people’s attention to small things. Small is beautiful. Most of the pencils he uses are found on the streets and sidewalks. Dalton’s work is a recycling process. He turns discarded objects into art.

To create his sculpture, he holds the pencil in his hand under a strong light source (table lamp or sunlight) and carves it mostly with a sewing needle and a very sharp, triangular, small, metal blade. He works at very small intervals: 1 to 2 hours maximum per day whenever he gets inspired. He works very slowly by removing specks of graphite at a time. It therefore takes months or sometimes years to complete a sculpture.

For Dalton, sculpting pencils is a hobby and a form of meditation, which requires a lot of patience. His pencil carvings are not for sale. He doesn’t do it for money. He sculpts pencils mostly for himself and his art comes from his heart. He wants to keep it that way.

Creativo, curioso y atractivo a la vista.

(via martinekenblog)

medicinenotes:

Overall Winner - Intracranial recording for epilepsy

This photograph shows the surface (cortex) of a human brain belonging to an epileptic patient, displaying the arteries and veins that supply its nutrients and oxygen. This photograph was taken before an intracranial electrode recording procedure, in which a flexible electrode grid is attached to the surface of the brain. The patient is then taken to the telemetry ward, where they are observed and recorded for a period of up to two weeks. Post-observation, the surgeon reviews the recordings and evaluates the data using the unique numbers on the grid implant to identify the specific areas of the brain that need to be removed during the next operation. This patient made a full recovery and no longer suffers from epileptic fits. Credit: Robert Ludlow, UCL Institute of Neurology, London / Wellcome Images

neurosciencestuff:

Genetic landscape of common brain tumors holds key to personalized treatment

Nearly the entire genetic landscape of the most common form of brain tumor can be explained by abnormalities in just five genes, an international team of researchers led by Yale School of Medicine scientists report online in the Jan. 24 edition of the journal Science.  Knowledge of the genomic profile of the tumors and their location in the brain make it possible for the first time to develop personalized medical therapies for meningiomas, which currently are only managed surgically.

Meningioma tumors affect about 170,000 patients in the United States. They are usually benign but can turn malignant in about 10 percent of cases. Even non-cancerous tumors can require surgery if they affect the surrounding brain tissue and disrupt neurological functions. 

Approximately half of the tumors have already been linked to a mutation or deletion of a gene called neurofibromin 2, or NF2. The origins of the rest of the meningiomas had remained a mystery.

The Yale team conducted genomic analyses of 300 meningiomas and found four new genetic suspects, each of which yields clues to the origins and treatment of the condition. Tumors mutated with each of these genes tend to be located in different areas of the brain, which can indicate how likely they are to become malignant.

“Combining knowledge of these mutations with the location of tumor growth has direct clinical relevance and opens the door for personalized therapies,” said Dr. Murat Gunel, the Nixdorff-German Professor of Neurosurgery, professor of genetics and of neurobiology, and senior author of the study. Gunel is also a member of Yale Cancer Center’s Genetics and Genomics Research Program.

(via fantasticallyweirdshit)

deadmau5:

HEY! LISTEN!

yelyahwilliams:

eat-healthy-train-hard:

loveislikepaint:

rachelzaney:

I WOULD WORK OUT EVERY DAY IF MY WORK OUT PARTNER WAS A WALRUS

Omfg that walrus is doing sittups. Omfg

His form is almost better than mine.

:-O …………. :’-)

Ternurita!

(via consuesanchez)

(via consuesanchez)