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FOREWORD
prove the care of my patients. It represents a lifelong
attempt to gain an understanding of the anatomy and
intricacies of the brain that would improve the safety, gentle-
ness, and accuracy of surgery for my patients. During college,
I planned to pursue a career in social work but, during a
course on psychology and the brain, I became captivated by
the possibility of serving humanity through a career in neu-
rosurgery. During medical school, I began working in a neu-
roscience laboratory in my spare time and, at the end of my
residency, I completed a fellowship in neuroanatomy. It was
during this fellowship that I realized the potential for greater
knowledge about microneurosurgical anatomy to improve
the care of my patients. This volume, a distillation of our
studies of the posterior fossa, represents nearly 40 years of
work and study in which more than 50 residents and fellows
have participated, resulting in several hundred publications.
It has been gratifying to view the role of our fellows and
trainees in spreading this knowledge to other countries and
around the world and to see the benefits of neurosurgeons
applying this knowledge to improve surgery for their patients
(
Table 1
). Especially gratifying has been the association with Drs.
Katsutoshi Kitamura, Masashi Fukui, and Toshio Matsushima in
Fukuoka, Japan, and Drs. Evandro de Oliveira, Helder Tedeschi,
and Hung Wen in S˜ o Paulo, Brazil. It is to the fellows and
associates in the microsurgery laboratory that this volume is
dedicated. Special thanks go to our medical illustrators, David
Peace and Robin Barry, who have worked with us for 2
decades; to Ron Smith, who has directed the microsurgery
laboratory for many years; and to Laura Dickinson and Fran
Johnson, who have labored over these and earlier manuscripts.
In the beginning, nearly 40 years ago, even with microsur-
gical techniques, our dissections were crude by current stan-
dards, with photographs needing to be retouched to bring out
the facets of anatomy important in achieving a satisfactory
outcome at surgery. Over the years, as we have learned to
expose fine neural structures, the display of microsurgical
anatomy has become more vividly accurate and beautiful
than we had imagined at the onset, and it has enhanced the
accuracy and beauty of our surgery. We hope that it will do
the same for our readers. We plan to produce a second issue
on the cerebrum and supratentorial areas in 2002 for the 25th
anniversary of
Neurosurgery
, which I had some role in birth-
ing, as President of the Congress of Neurological Surgeons 22
years ago.
In the early development of neurosurgery, approaches to
the posterior fossa were directed largely via the occipital
squama and less frequently via the subtemporal transtentorial
route. With the development of microsurgery and cranial base
TABLE 1. Residents and Fellows Who Have Worked in Dr.
Rhoton’s Microsurgery Laboratory
Name
Location
Hajime Arai
Tokyo, Japan
Allen S. Boyd, Jr.
Memphis, Tennessee
Christopher C. Carver
Salinas, California
Evandro de Oliveira
S˜o Paulo, Brazil
W. Frank Emmons
Olympia, Washington
J. Paul Ferguson
Rome, Georgia
Andrew D. Fine
Gainesville, Florida
Brandon Fradd
Gainesville, Florida
Kiyotaka Fujii
Fukuoka, Japan
Hirohiko Gibo
Nagano, Japan
John L. Grant
Portsmouth, Virginia
Kristinn Gudmundsson
Reykjavik, Iceland
David G. Hardy
Cambridge, England
Frank S. Harris
Temple, Texas
Tsutomo Hitotsumatsu
Fukuoka, Japan
Takuya Inoue
Fukuoka, Japan
Tooru Inoue
Fukuoka, Japan
Chang Jin Kim
Seoul, South Korea
Toshiro Katsuta
Fukuoka, Japan
Shigeaki Kobayashi
Matsumoto, Japan
William Lineaweaver
Stanford, California
J. Richard Lister
Peoria, Illinois
Qing Liang Liu
Beijing, China
Jack E. Maniscalco
Tampa, Florida
Richard G. Martin
Huntsville, Alabama
Haruo Matsuno
Fukuoka, Japan
Toshio Matsushima
Fukuoka, Japan
J. Robert Mozingo
(Deceased)
Hiroshi Muratani
Fukuoka, Japan
Antonio C. M. Mussi
S˜o Paulo, Brazil
Shinji Nagata
Fukuoka, Japan
Yoshihiro Natori
Fukuoka, Japan
Kazunari Oka
Fukuoka, Japan
Michio Ono
Tokyo, Japan
T. Glenn Pait
Little Rock, Arkansas
Wayne S. Paullus
Amarillo, Texas
David Perlmutter
Sarasota, Florida
Wade H. Renn
Valdosta, Georgia
Saran S. Rosner
Hawthorne, New York
Naokatsu Saeki
Chiba, Japan
Shuji Sakata
Fukuoka, Japan
Eduardo Seoane
Buenos Aires, Argentina
Xiang-en Shi
Beijing, China
Ryusui Tanaka
Tokyo, Japan
Helder Tedeschi
S˜o Paulo, Brazil
Erdener Timurkaynak
Ankara, Turkey
Hung T. Wen
S˜o Paulo, Brazil
C. J. Whang
Seoul, South Korea
Isao Yamamoto
Yokohama, Japan
Arnold A. Zeal
Jacksonville, Florida
Neurosurgery,
Vol. 47, No. 3, September 2000 Supplement
S5
The Posterior Cranial Fossa: Microsurgical Anatomy
and Surgical Approaches
T
his work has grown out of my personal desire to im-
Robert Buza
Salem, Oregon
S6
Rhoton
surgery, it became possible to work in long, narrow expo-
sures, thus setting the stage for opening virtually all of the
cranial base through carefully placed windows exposing
small and selective parts of the posterior fossa. These devel-
opments led to approaches to the posterior fossa via the
temporal bone as well as set the stage for approaches directed
via the anterior and middle cranial base. In this volume, we
have attempted not only to display the brain and cranial base
in the best views for understanding the anatomy, but also to
show the anatomy as exposed in opening multiple surgical
routes to the posterior fossa. For those wanting even greater
detail than displayed in this volume, our prior works, pub-
lished largely in
Neurosurgery
and the
Journal of Neurosurgery
,
can be consulted.
This work has been sustained by numerous private contri-
butions to our department and the University of Florida. Most
prominent among these has been the R.D. Keene family, who
made the first $1 million gift to the University of Florida, a gift
that has supported our work for many years. Their gift was
followed by additional endowments, totaling $16 million,
which support many aspects of education and research in
neurosurgery at the University of Florida. These gifts have
endowed the following chairs and professorships: the R.D.
Keene Family Chair, the C.M. and K.E. Overstreet Chair, the
Mark Overstreet Chair, the Albert E. and Birdie W. Einstein
Chair, the James and Newton Eblen Chair, the Dunspaugh-
Dalton Chair, the Edward Shed Wells Chair, the Robert Z. and
Nancy J. Greene Chair, the L.D. Hupp Chair, the William
Merz Professorship, and the Albert L. Rhoton, Jr. Chairman’s
Professorship. The most recent of these is the $4 million gift
establishing the Albert L. Rhoton, Jr. Neurosurgery Professor-
ship, held by William A. Friedman, who has followed me as
Chairman of Neurosurgery. The efforts of the numerous cli-
nicians and scientists recruited, as a result of the Endowed
Chairs, contributed greatly to the founding of the University
of Florida Brain Institute, where our studies of microsurgical
anatomy are being completed. With this volume, we join our
donors in their aspiration to improve the lives of those un-
dergoing brain surgery throughout the world.
Albert L. Rhoton, Jr.
Gainesville, Florida
Cranial cavity drawing by Leonardo da Vinci captures the growing sense of a science of proporations for Renaissance
artists. In addition to serving as anatomical specimens, his drawings remain consummate examples of draftsmanship.
Courtesy, Dr. Edwin Todd, Pasadena, California. (Also see pages S193 and S286.)
Neurosurgery,
Vol. 47, No. 3, September 2000 Supplement
CHAPTER 1
Cerebellum and Fourth Ventricle
Albert L. Rhoton, Jr., M.D.
Department of Neurological Surgery, University of Florida, Gainesville, Florida
Key words:
Cerebellar artery, Cranial nerve, Fourth ventricle, Intracranial vein, Microsurgical anatomy
three cranial fossae, contains the most complex intracra-
nial anatomy. Here, in approximately one-eighth the
intracranial space, are found the pathways regulating con-
sciousness, vital autonomic functions, and motor activities
and sensory reception for the head, body, and extremities, in
addition to the centers for controlling balance and gait. Only
2 of the 12 pairs of cranial nerves are located entirely outside
the posterior fossa; the 10 other pairs have a segment within
the posterior fossa (22, 25) (
Fig. 1.1
). The posterior fossa is
strategically situated at the outlet of the cerebrospinal fluid
flow from the ventricular system. The arterial relationships
are especially complex, with the vertebral and basilar arteries
having relatively inaccessible segments deep in front of the
brainstem and the major cerebellar arteries coursing in rela-
tion to multiple sets of cranial nerves before reaching the
cerebellum (9, 10, 18, 19).
The posterior fossa extends from the tentorial incisura,
through which it communicates with the supratentorial space,
to the foramen magnum, through which it communicates
with the spinal canal. It is surrounded by the occipital, tem-
poral, parietal, and sphenoid bones (
Fig. 1.1
). It is bounded in
front by the dorsum sellae, the posterior part of the sphenoid
body, and the clival part of the occipital bone; behind by the
lower portion of the squamosal part of the occipital bone; and
on each side by the petrous and mastoid parts of the temporal
bone, the lateral part of the occipital bone, and above and
behind by a small part of the mastoid angle of the parietal
bone. Its intracranial surface is penetrated by the jugular
foramen, internal acoustic meatus, hypoglossal canal, the ves-
tibular and cochlear aqueducts, and several venous emissary
foramina, all of which will be explored in greater detail. The
upper surface of the cerebellum is separated from the supra-
tentorial space by the tentorium cerebelli. Optimizing an op-
erative approach to the posterior fossa requires an under-
standing of the relationships of the cerebellum, cranial nerves,
brainstem, the cerebellar arteries, veins, and peduncles, and
the complex fissures between the cerebellum and brainstem.
The relationships of the fourth ventricle to the cerebellar
surfaces and the fissures through which the ventricle is ap-
proached surgically are among the most complex in the brain.
This section on the cerebellum and fourth ventricle will begin
at the cerebellar surfaces and progress to the deeper neural
structures.
CEREBELLAR SURFACES
The cortical surfaces are divided on the basis of the struc-
tures they face, or along which they may be exposed, to make
this description more readily applicable to the operative set-
ting (
Fig. 1.2
). The first surface, the tentorial surface, faces the
tentorium and is retracted in a supracerebellar approach; the
second surface, the suboccipital surface, is located below and
between the lateral and sigmoid sinuses and is exposed in a
suboccipital craniectomy; and the third surface, the petrosal
surface, faces forward toward the posterior surface of the
petrous bone and is retracted to expose the cerebellopontine
angle. Each of the surfaces has the vermis in the midline and
the hemispheres laterally and is divided by a major fissure
named on the basis of the surface that it divides. The hemi-
spheric lobules forming each of the three surfaces commonly
overlap onto and form a part of the adjacent surfaces (22). The
fissures dividing the three cortical surfaces are to be distin-
guished from the fissures between the cerebellum and the
brainstem.
Tentorial surface
The tentorial surface faces and conforms to the lower sur-
face of the tentorium (
Figs. 1.2–1.4
). The anteromedial part of
this surface, the apex, formed by the anterior vermis, is the
highest point on the cerebellum. This surface slopes down-
ward from its anteromedial to its posterolateral edge. On the
tentorial surface, the transition from the vermis to the hemi-
spheres is smooth and not marked by the deep fissures on the
suboccipital surface between the vermis and hemispheres.
Deep notches, the anterior and posterior cerebellar incisurae,
groove the anterior and posterior edges of the tentorial sur-
face in the midline. The brainstem fits into the anterior cere-
bellar incisura and the falx cerebelli fits into the posterior
incisura (
Fig. 1.2
).
Neurosurgery,
Vol. 47, No. 3, September 2000 Supplement
S7
T
he posterior cranial fossa, the largest and deepest of the
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