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Neurosurgery








Neurosurgery


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For the medical journal, see Neurosurgery (journal).








Neurosurgery

Parkinson surgery.jpg
Stereotactic guided insertion of DBS electrodes in neurosurgery

Occupation
Activity sectors
Surgery
Description
Education required


  • Doctor of Osteopathic Medicine (D.O.)

or



  • Bachelor of Medicine, Bachelor of Surgery (M.B.B.S.) with Fellowship of the Royal College of Surgeons (F.R.C.S.)

or



  • Master of Surgery (M.S.)

or



  • Doctor of Medicine (M.D.)
Fields of
employment

Hospitals, Clinics

Neurosurgery, or neurological surgery, is the medical specialty concerned with the prevention, diagnosis, surgical treatment, and rehabilitation of disorders which affect any portion of the nervous system including the brain, spinal cord, peripheral nerves, and extra-cranial cerebrovascular system.[1]




Contents





  • 1 Education and context

    • 1.1 United States


    • 1.2 United Kingdom



  • 2 History

    • 2.1 Ancient


    • 2.2 Modern


    • 2.3 Modern surgical instruments



  • 3 Main divisions


  • 4 Neuropathology

    • 4.1 History



  • 5 Neuroanesthesia

    • 5.1 History



  • 6 Neurosurgery methods


  • 7 Conditions


  • 8 Notable neurosurgeons


  • 9 See also


  • 10 References


  • 11 External links




Education and context[edit]


In different countries, there are different requirements for an individual to legally practice neurosurgery, and there are varying methods through which they must be educated. In most countries, neurosurgeon training requires a minimum period of seven years after graduating from medical school.[citation needed]



United States[edit]


In the United States, a neurosurgeon must generally complete four years of undergraduate education, four years of medical school, and seven years of residency (PGY-1-7).[2] Most, but not all, residency programs have some component of basic science or clinical research. Neurosurgeons may pursue additional training in the form of a fellowship, after residency or in some cases, as a senior resident. These fellowships include pediatric neurosurgery, trauma/neurocritical care, functional and stereotactic surgery, surgical neuro-oncology, radiosurgery, neurovascular surgery, skull-base surgery, peripheral nerve and spine surgery.[3] In the U.S., neurosurgery is considered a highly competitive specialty composed of 0.6% of all practicing physicians.[citation needed]



United Kingdom[edit]


In the United Kingdom, students must gain entry into medical school. MBBS qualification (Bachelor of Medicine, Bachelor of Surgery) takes four to six years depending on the student's route. The newly qualified physician must then complete foundation training lasting two years; this is a paid training program in a hospital or clinical setting covering a range of medical specialties including surgery. Junior doctors then apply to enter the neurosurgical pathway. Unlike most other surgical specialties, it currently has its own independent training pathway which takes around eight years (ST1-8); before being able to sit for consultant exams with sufficient amounts of experience and practice behind them. Neurosurgery remains consistently amongst the most competitive medical specialties in which to obtain entry.[4]



History[edit]


Main article: History of neurology and neurosurgery

Neurosurgery, or the premeditated incision into the head for pain relief, has been around for thousands of years, but notable advancements in neurosurgery have only come within the last hundred years.[5]



Edinburgh Skull, trepanning showing hole in back of skull Wellcome M0009393.jpg



Ancient[edit]


The Incas appear to have practiced a procedure known as trepanation since the late Stone age.[6] During the Middle Ages in Arabia from 936 to 1013 AD, Al-Zahrawi performed surgical treatments of head injuries, skull fractures, spinal injuries, hydrocephalus, subdural effusions and headache.[7]



Modern[edit]



HochbergFig1.jpg


There was not much advancement in neurosurgery until late 19th early 20th century, when electrodes were placed on the brain and superficial tumors were removed.


History of electrodes in the brain: In 1878 Richard Canton discovered that electrical signals transmitted through an animal's brain. In 1950 Dr. Jose Delgado invented the first electrode that was implanted in an animal's brain, using it to make it run and change direction. In 1972 the cochlear implant, a neurological prosthetic that allowed deaf people to hear was marketed for commercial use. In 1998 researcher Philip Kennedy implanted the first Brain Computer Interface (BCI) into a human subject.[1]


History of tumor removal: In 1879 after locating it via neurological signs alone, Scottish surgeon William Macewen (1848-1924) performed the first successful brain tumor removal.[2] On November 25, 1884 after English physician Alexander Hughes Bennett (1848-1901) used Macewen's technique to locate it, English surgeon Rickman Godlee (1849-1925) performed the first primary brain tumor removal,[3][8] which differs from Macewen's operation in that Bennett operated on the exposed brain, whereas Macewen operated outside of the "brain proper" via trepanation.[4] On March 16, 1907 Austrian surgeon Hermann Schloffer became the first to successfully remove a pituitary tumor.[9]



Modern surgical instruments[edit]



Puma Robotic Arm - GPN-2000-001817.jpg




Aluminium Headrest System for neurosurgical procedures


The main advancements in neurosurgery came about as a result of highly crafted tools. Modern neurosurgical tools, or instruments, include chisels, curettes, dissectors, distractors, elevators, forceps, hooks, impactors, probes, suction tubes, power tools, and robots.[10][11] Most of these modern tools, like chisels, elevators, forcepts, hooks, impactors, and probes, have been in medical practice for a relatively long time. The main difference of these tools, pre and post advancement in neurosurgery, were the precision in which they were crafted. These tools are crafted with edges that are within a millimeter of desired accuracy.[12] Other tools such as hand held power saws and robots have only recently been commonly used inside of a neurological operating room. As an example, the University of Utah developed a device for computer-aided design / computer-aided manufacturing (CAD-CAM) which uses an image-guided system to define a cutting tool path for a robotic cranial drill.[13]



Main divisions[edit]


General neurosurgery involves most neurosurgical conditions including neuro-trauma and other neuro-emergencies such as intracranial hemorrhage. Most level 1 hospitals have this kind of practice.[citation needed]


Specialized branches have developed to cater to special and difficult conditions. These specialized branches co-exist with general neurosurgery in more sophisticated hospitals. To practice advanced specialization within neurosurgery, additional higher fellowship training of one to two years is expected from the neurosurgeon.
Some of these divisions of neurosurgery are:


  1. Vascular neurosurgery


  2. Stereotactic neurosurgery, functional neurosurgery, and epilepsy surgery (the latter includes partial or total corpus callosotomy – severing part or all of the corpus callosum to stop or lessen seizure spread and activity, and the surgical removal of functional, physiological and/or anatomical pieces or divisions of the brain, called epileptic foci, that are operable and that are causing seizures, and also the more radical and very, very rare partial or total lobectomy, or even hemispherectomy – the removal of part or all of one of the lobes, or one of the cerebral hemispheres of the brain; those two procedures, when possible, are also very, very rarely used in oncological neurosurgery or to treat very severe neurological trauma, such as stab or gunshot wounds to the brain)


  3. Oncological neurosurgery also called neurosurgical oncology; includes pediatric oncological neurosurgery; treatment of benign and malignant central and peripheral nervous system cancers and pre-cancerous lesions in adults and children (including, among others, glioblastoma multiforme and other gliomas, brain stem cancer, astrocytoma, pontine glioma, medulloblastoma, spinal cancer, tumors of the meninges and intracranial spaces, secondary metastases to the brain, spine, and nerves, and peripheral nervous system tumors)

  4. Skull base surgery

  5. Spinal neurosurgery


  6. Peripheral nerve surgery


  7. Pediatric neurosurgery (for cancer, seizures, bleeding, stroke, cognitive disorders or congenital neurological disorders)


Neuropathology[edit]



Neuropathology case V 03.jpg


Neuropathology is a specialty within the study of pathology focused on the disease of the brain, spinal cord, and neural tissue.[14] This includes the central nervous system and the peripheral nervous system. Tissue analysis comes from either surgical biopsies or post mortem autopsies. Common tissue samples include muscle fibers and nervous tissue.[15] Common applications of neuropathology include studying samples of tissue in patients who have Parkinson's disease, Alzheimer's disease, dementia, Huntington's disease, amyotrophic lateral sclerosis, mitochondria disease, and any disorder that has neural deterioration in the brain or spinal cord.[16][17]



History[edit]


Pathology has been studied ever since men have decided to cut each other open and see what is inside. But only within the last few hundred years has medicine focused on a tissue- and organ-based approach to tissue disease. In 1810, Thomas Hodgkin started to look at the damaged tissue for the cause, not the gods. This was conjoined with the emergence of microscopy and started the current understanding of how the tissue of the human body is studied.[18]



Neuroanesthesia[edit]


Neuroanesthesia is a field of anesthesiology which focuses on neurosurgery. Anesthesia is not used during the middle of an "awake" brain surgery. Awake brain surgery is where the patient is conscious for the middle of the procedure and sedated for the beginning and end. This procedure is used when the tumor does not have clear boundaries and the surgeon wants to know if they are invading on critical regions of the brain which involve functions like talking, cognition, vision, and hearing. It will also be conducted for procedures which the surgeon is trying to combat epileptic seizures.[19]



History[edit]


Early forms of neuroanesthesia were found during procedures of trepanning in Southern America, like Peru. In these procedures coca leaves and datura plants were used to manage pain as the person had dull primitive tools cut open their skull. In 400 BC The physician Hippocrates made accounts of using different wines to sedate patients while trepanning. In 60 AD Dioscorides, a physician, pharmacologist, and botanist, detailed how mandrake, henbane, opium, and alcohol were used to put patients to sleep during trepanning. In 972 AD two brother surgeons, in modern-day India, used "samohine" to sedate a patient while removing a small tumor and awoke the patient by pouring onion and vinegar in the patients mouth. Since then, multiple cocktails have been derived in order to sedate a patient during a brain surgery. The most recent form of neuroanesthesia is the combination of carbon dioxide, hydrogen, and nitrogen. This was discovered in the 18th century by Sir Humphry Davy and brought into the operating room by Sir Astley Cooper.[20]



Neurosurgery methods[edit]










Neurosurgery
ICD-10-PCS
00-01
ICD-9-CM
01–05
MeSHD019635
OPS-301 code5-01...5-05
[edit on Wikidata]

Neuroradiology plays a key role not only in diagnosis but also in the operative phase of neurosurgery.[citation needed]


Neuroradiology methods are used in modern neurosurgery diagnosis and treatment. They include computer assisted imaging computed tomography (CT), magnetic resonance imaging (MRI), positron emission tomography (PET), magnetoencephalography (MEG), and stereotactic radiosurgery. Some neurosurgery procedures involve the use of intra-operative MRI and functional MRI.[21]


In conventional open surgery the neurosurgeon opens the skull, creating a large opening to access the brain. Techniques involving smaller openings with the aid of microscopes and endoscopes are now being used as well. Methods that utilize small craniotomies in conjunction with high-clarity microscopic visualization of neural tissue offer excellent results. However, the open methods are still traditionally used in trauma or emergency situations.[9][10]


Microsurgery is utilized in many aspects of neurological surgery. Microvascular techniques are used in EC-IC bypass surgery and in restoration carotid endarterectomy. The clipping of an aneurysm is performed under microscopic vision. minimally-invasive spine surgery utilizes microscopes or endoscopes. Procedures such as microdiscectomy, laminectomy, and artificial disc replacement rely on microsurgery.[11]


Using stereotaxy neurosurgeons can approach a minute target in the brain through a minimal opening. This is used in functional neurosurgery where electrodes are implanted or gene therapy is instituted with high level of accuracy as in the case of Parkinson's disease or Alzheimer's disease. Using the combination method of open and stereotactic surgery, intraventricular hemorrhages can potentially be evacuated successfully.[12] Conventional surgery using image guidance technologies is also becoming common and is referred to as surgical navigation, computer assisted surgery, navigated surgery, stereotactic navigation. Similar to a car or mobile Global Positioning System (GPS), image guided surgery systems, like Curve Image Guided Surgery and StealthStation, use cameras or electromagnetic fields to capture and relay the patient’s anatomy and the surgeon’s precise movements in relation to the patient, to computer monitors in the operating room. These sophisticated computerized systems are used before and during surgery to help orient the surgeon with three-dimensional images of the patient’s anatomy including the tumor.[citation needed]


Minimally invasive endoscopic surgery is commonly utilized by neurosurgeons when appropriate. Techniques such as endoscopic endonasal surgery are used in pituitary tumors, craniopharyngiomas, chordomas, and the repair of cerebrospinal fluid leaks. Ventricular endoscopy is used in the treatment of intraventricular bleeds, hydrocephalus, colloid cyst and neurocysticercosis. Endonasal endoscopy is at times carried out with neurosurgeons and ENT surgeons working together as a team.[citation needed]


Repair of craniofacial disorders and disturbance of cerebrospinal fluid circulation is done by neurosurgeons who also occasionally team up with maxillofacial and plastic surgeons. Cranioplasty for craniosynostosis is performed by pediatric neurosurgeons with or without plastic surgeons.[citation needed]


Neurosurgeons are involved in stereotactic radiosurgery along with radiation oncologists in tumor and AVM treatment. Radiosurgical methods such as Gamma knife, Cyberknife and Novalis Radiosurgery are used as well.[22]


Endovascular surgical neuroradiology utilize endovascular image guided procedures for the treatment of aneurysms, AVMs, carotid stenosis, strokes, and spinal malformations, and vasospasms. Techniques such as angioplasty, stenting, clot retrieval, embolization, and diagnostic angiography are endovascular procedures.[23]


A common procedure performed in neurosurgery is the placement of Ventriculo-Peritoneal Shunt (VP Shunt). In pediatric practice this is often implemented in cases of congenital hydrocephalus. The most common indication for this procedure in adults is Normal Pressure Hydrocephalus (NPH).[citation needed]


Neurosurgery of the spine covers the cervical, thoracic and lumbar spine. Some indications for spine surgery include spinal cord compression resulting from trauma, arthritis of the spinal discs, or spondylosis. In cervical cord compression, patients may have difficulty with gait, balance issues, and/or numbness and tingling in the hands or feet. Spondylosis is the condition of spinal disc degeneration and arthritis that may compress the spinal canal. This condition can often result in bone-spurring and disc herniation. Power drills and special instruments are often used to correct any compression problems of the spinal canal. Disc herniations of spinal vertebral discs are removed with special rongeurs. This procedure is known as a discectomy. Generally once a disc is removed it is replaced by an implant which will create a bony fusion between vertebral bodies above and below. Instead, a mobile disc could be implanted into the disc space to maintain mobility. This is commonly used in cervical disc surgery. At times instead of disc removal a Laser discectomy could be used to decompress a nerve root. This method is mainly used for lumbar discs. Laminectomy is the removal of the Lamina portion of the vertebrae of the spine in order to make room for the compressed nerve tissue.[citation needed]


Radiology assisted spine surgery uses minimally-invasive procedures. They include the techniques of vertebroplasty and kyphoplasty in which certain types of spinal fractures are managed.[24]
Potentially unstable spines will need spine fusions. At present these procedures include complex instrumentation. Spine fusions could be performed as open surgery or as minimally invasive surgery. Anterior cervical diskectomy and fusion is a common surgery that is performed for disc disease of cervical spine.[25]
However, each method described above may not work in all patients. Therefore, careful selection of patients for each procedure is important. It has to be noted that if there is prior permanent neural tissue damage spinal surgery may not take away the symptoms.[citation needed]


Surgery for chronic pain is a sub branch of functional neurosurgery. Some of the techniques include implantation of deep brain stimulators, spinal cord stimulators, peripheral stimulators and pain pumps.[citation needed]


Surgery of the peripheral nervous system is also possible, and includes the very common procedures of carpal tunnel decompression and peripheral nerve transposition. Numerous other types of nerve entrapment conditions and other problems with the peripheral nervous system are treated as well.[citation needed]



Conditions[edit]


Conditions treated by neurosurgeons include, but are not limited to:[26]



  • Meningitis and other central nervous system infections including abscesses

  • Spinal disc herniation


  • Cervical spinal stenosis and Lumbar spinal stenosis

  • Hydrocephalus


  • Head trauma (brain hemorrhages, skull fractures, etc.)

  • Spinal cord trauma


  • Traumatic injuries of peripheral nerves


  • Tumors of the spine, spinal cord and peripheral nerves

  • Intracerebral hemorrhage, such as subarachnoid hemorrhage, interdepartmental, and intracellular hemorrhages

  • Some forms of drug-resistant epilepsy

  • Some forms of movement disorders (advanced Parkinson's disease, chorea) – this involves the use of specially developed minimally invasive stereotactic techniques (functional, stereotactic neurosurgery) such as ablative surgery and deep brain stimulation surgery

  • Intractable pain of cancer or trauma patients and cranial/peripheral nerve pain

  • Some forms of intractable psychiatric disorders

  • Vascular malformations (i.e., arteriovenous malformations, venous angiomas, cavernous angiomas, capillary telangectasias) of the brain and spinal cord

  • Moyamoya disease


Notable neurosurgeons[edit]


  • Sir Victor Horsley – known as the first neurosurgeon


  • Karin Muraszko – first woman to occupy a chair of neurosurgery at an American medical school (University of Michigan).


  • Hermann Schloffer invented transsphenoidal surgery in 1907


  • Harvey Cushing – known as one of the fathers of modern neurosurgery


  • Robert Wheeler Rand – along with Theodore Kurze, MD was among the first to introduce the surgical microscope into neurosurgical procedures in 1957 and published first textbook on Microneurosurgery in 1969


  • Gazi Yaşargil – known as the father of microneurosurgery


  • Ludvig Puusepp – known as one of the founding fathers of modern neurosurgery, world's first professor of neurosurgery


  • Walter Dandy – known as one of the founding fathers of modern neurosurgery


  • Hirotaro Narabayashi – a pioneer of stereotactic neurosurgery


  • Alim-Louis Benabid – known as one of the developers of deep brain stimulation surgery for movement disorder


  • Wilder Penfield – known as one of the founding fathers of modern neurosurgery, and pioneer of epilepsy neurosurgery


  • Joseph Ransohoff – known for his pioneering use of medical imaging and catheterization in neurosurgery, and for founding the first neurosurgery intensive care unit


  • Lars Leksell – Swedish neurosurgeon who developed the Gamma Knife


  • Ben Carson – retired pediatric neurosurgeon from Johns Hopkins Hospital, pioneer in hemispherectomy, and pioneer in the separation of craniopagus twins (joined at the head); former presidential candidate


  • John R. Adler – Stanford University neurosurgeon who invented the CyberKnife


  • Wirginia Maixner – pediatric neurosurgeon at Melbourne's Royal Children's Hospital. Primarily known for separating conjoined Bangladeshi twins, Trishna and Krishna


  • Frank Henderson Mayfield – invented the Mayfield skull clamp


  • Ayub K. Ommaya – invented the Ommaya reservoir


  • Richard N.W. Wohns – invented interspinous implant and implantation instrument


See also[edit]


  • American Association of Neurological Surgeons

  • Congress of Neurological Surgeons

  • Polyaxial screw

  • List of neurologists and neurosurgeons


References[edit]




  1. ^ ab http://biomed.brown.edu/Courses/BI108/BI108_2005_Groups/03/hist.htm[full citation needed]


  2. ^ ab Preul, Mark C. (2005). "History of brain tumor surgery". Neurosurgical Focus. 18 (4): 1. doi:10.3171/foc.2005.18.4.1..mw-parser-output cite.citationfont-style:inherit.mw-parser-output qquotes:"""""""'""'".mw-parser-output code.cs1-codecolor:inherit;background:inherit;border:inherit;padding:inherit.mw-parser-output .cs1-lock-free abackground:url("//upload.wikimedia.org/wikipedia/commons/thumb/6/65/Lock-green.svg/9px-Lock-green.svg.png")no-repeat;background-position:right .1em center.mw-parser-output .cs1-lock-limited a,.mw-parser-output .cs1-lock-registration abackground:url("//upload.wikimedia.org/wikipedia/commons/thumb/d/d6/Lock-gray-alt-2.svg/9px-Lock-gray-alt-2.svg.png")no-repeat;background-position:right .1em center.mw-parser-output .cs1-lock-subscription abackground:url("//upload.wikimedia.org/wikipedia/commons/thumb/a/aa/Lock-red-alt-2.svg/9px-Lock-red-alt-2.svg.png")no-repeat;background-position:right .1em center.mw-parser-output .cs1-subscription,.mw-parser-output .cs1-registrationcolor:#555.mw-parser-output .cs1-subscription span,.mw-parser-output .cs1-registration spanborder-bottom:1px dotted;cursor:help.mw-parser-output .cs1-hidden-errordisplay:none;font-size:100%.mw-parser-output .cs1-visible-errorfont-size:100%.mw-parser-output .cs1-subscription,.mw-parser-output .cs1-registration,.mw-parser-output .cs1-formatfont-size:95%.mw-parser-output .cs1-kern-left,.mw-parser-output .cs1-kern-wl-leftpadding-left:0.2em.mw-parser-output .cs1-kern-right,.mw-parser-output .cs1-kern-wl-rightpadding-right:0.2em


  3. ^ ab Kirkpatrick, Douglas B. (1984). "The first primary brain-tumor operation". Journal of Neurosurgery. 61 (5): 809–13. doi:10.3171/jns.1984.61.5.0809. PMID 6387062.


  4. ^ ab https://www.uakron.edu/gage/surgery.dot[full citation needed]


  5. ^ Wickens, Andrew P. (2014-12-08). A History of the Brain: From Stone Age surgery to modern neuroscience. Psychology Press. ISBN 9781317744825.


  6. ^ Andrushko, Valerie A.; Verano, John W. (September 2008). "Prehistoric trepanation in the Cuzco region of Peru: A view into an ancient Andean practice". American Journal of Physical Anthropology. 137 (1): 4–13. doi:10.1002/ajpa.20836. PMID 18386793.


  7. ^ Al-Rodhan, N. R.; Fox, J. L. (1986-07-01). "Al-Zahrawi and Arabian neurosurgery, 936-1013 AD". Surgical Neurology. 26 (1): 92–95. doi:10.1016/0090-3019(86)90070-4. ISSN 0090-3019. PMID 3520907.


  8. ^ http://onlinelibrary.wiley.com/doi/10.3322/canjclin.24.3.169/pdf


  9. ^ ab http://www.neurosurgery.org/cybermuseum/microneurohall/jhardy.html[full citation needed]


  10. ^ ab http://www.medicalexpo.com/medical-manufacturer/neurosurgery-surgical-power-tool-11882.html[full citation needed]


  11. ^ ab http://www.stealthsurgical.com/department/neurosurgical-10000.cfm[full citation needed]


  12. ^ ab http://news.psu.edu/story/285212/2013/08/26/impact/technology-increases-precision-safety-during-neurosurgery[full citation needed]


  13. ^ "Robotics in Neurosurgery". Neurosurgical Focus. 42 (5). 1 May 2017. Retrieved 14 November 2018.


  14. ^ http://www.mc.vanderbilt.edu/root/vumc.php?site=vmcpathology&doc=12892[full citation needed]


  15. ^ http://neuropathology.stanford.edu/[full citation needed][not in citation given]


  16. ^ http://neuropathology-web.org/chapter9/chapter9aDementia.html[full citation needed]


  17. ^ Filosto, Massimiliano; Tomelleri, Giuliano; Tonin, Paola; Scarpelli, Mauro; Vattemi, Gaetano; Rizzuto, Nicolò; Padovani, Alessandro; Simonati, Alessandro (2007). "Neuropathology of mitochondrial diseases". Bioscience Reports. 27 (1–3): 23–30. doi:10.1007/s10540-007-9034-3. PMID 17541738.


  18. ^ van den Tweel, Jan G.; Taylor, Clive R. (2010). "A brief history of pathology". Virchows Archiv. 457 (1): 3–10. doi:10.1007/s00428-010-0934-4. PMC 2895866. PMID 20499087.


  19. ^ http://www.hopkinsmedicine.org/neurology_neurosurgery/centers_clinics/ionm/types/intraoperative-brain-mapping.html[full citation needed]


  20. ^ Chivukula, Srinivas; Grandhi, Ramesh; Friedlander, Robert M. (2014). "A brief history of early neuroanesthesia". Neurosurgical Focus. 36 (4): E2. doi:10.3171/2014.2.FOCUS13578. PMID 24684332.


  21. ^ Castillo, Mauricio (2005). Neuroradiology Companion: Methods, Guidelines, and Imaging Fundamentals, 3rd ed. Philadelphia: Lippincott Williams & Wilkins. pp. 1–428.


  22. ^ [full citation needed] http://biomed.brown.edu/Courses/BI108/BI108_2005_Groups/04/neurology.html


  23. ^ http://www.mir.wustl.edu/neurorad/internal.asp?NavID=74[full citation needed]


  24. ^ Principles of Neurosurgery- Rengachary, Ellenbogen[full citation needed][page needed]


  25. ^ Core Techniques in Operative Neurosurgery - Jandial, McCormick, Black[full citation needed][page needed]


  26. ^ Greenberg., Mark S. (2010-01-01). Handbook of neurosurgery. Greenberg Graphics. ISBN 9781604063264. OCLC 892183792.




External links[edit]



  • The Brain that Changed Everything by Luke Dittrich – Esquire, November 2010


  • European Association of Neurosurgical Societies - website


  • Mediwikis website - A learning community for medical students











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Evgeni Malkin

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Evgeni Malkin From Wikipedia, the free encyclopedia Jump to navigation Jump to search This name uses Eastern Slavic naming customs; the patronymic is Vladimirovich and the family name is Malkin . Evgeni Malkin Malkin during the 2017 Stanley Cup Finals Born ( 1986-07-31 ) 31 July 1986 (age 32) Magnitogorsk, Russian SFSR, Soviet Union Height 6 ft 3 in (191 cm) Weight 195 [1]  lb (88 kg; 13 st 13 lb) Position Centre Shoots Left NHL team Former teams Pittsburgh Penguins Metallurg Magnitogorsk National team   Russia NHL Draft 2nd overall, 2004 Pittsburgh Penguins Playing career 2003–present Website http://malkin71.com Yevgeni Vladimirovich "Geno" Malkin (Russian: Евге́ний Влади́мирович Ма́лкин , IPA:  [jɪvˈɡʲenʲɪj ˈmaɫkʲɪn] ; [2] [3] born 31 July 1986) is a Russian professional ice hockey centre and alternate captain for the Pittsburgh Penguins of the National Hockey League (NHL). Malkin began his career with his hometown club Me
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