Fiber Dissection Technique: Lateral Aspect of the Brain

The aim of this study is to introduce the fiber dissection technique and its importance in the comprehension of the three-dimensional intrinsic anatomy of the brain. A total of twenty brain hemispheres were dissected. Using Kingler's technique we demonstrated the intrinsic structures of the brain. The supra lateral aspect of the brain as well as the medial aspect were presented. The most important fiber systems were demonstrated. The use and comprehension of new neuroimaging techniques demand a better understanding of this fascinating anatomy. The knowledge acquired with this technique will improve our understanding of critical pathways of the central nervous system.

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Surgical anatomy of supratentorial midline lesions

Neurosurgical FOCUS ◽

10.3171/foc.2005.18.6.14 ◽

2005 ◽

Vol 18 (6) ◽

pp. 1-9 ◽

Cited By ~ 43

Author(s):

M. Gazi Yaşargil ◽

Uğur Türe ◽

Dianne C. H. Yaşargil ¸

Keyword(s):

White Matter ◽

Surgical Approach ◽

Surgical Anatomy ◽

Cerebral Hemispheres ◽

Surgical Exploration ◽

Fiber Dissection ◽

Dissection Technique ◽

Surgical Aspects ◽

The Brain

Object In this paper the authors correlate the surgical aspects of deep median and paramedian supratentorial lesions with the connective fiber systems of the white matter of the brain. Methods The cerebral hemispheres of 10 cadaveric brains were dissected in a mediolateral direction by using the fiber dissection technique, corresponding to the surgical approach. Conclusions This study illuminates the delicacy of the intertwined and stratified fiber laminae of the white matter, and establishes that these structures can be preserved at surgical exploration in patients.

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Three-Dimensional Topographic Fiber Tract Anatomy of the Cerebrum

Operative Neurosurgery ◽

10.1227/neu.0000000000000704 ◽

2015 ◽

Vol 11 (2) ◽

pp. 274-305 ◽

Cited By ~ 25

Author(s):

Kaan Yagmurlu ◽

Alexander L Vlasak ◽

Albert L Rhoton

Keyword(s):

Three Dimensional ◽

Central Core ◽

3 Dimensional ◽

Fiber Tracts ◽

Nuclear Masses ◽

Fiber Dissection ◽

Dissection Technique ◽

Human Brains ◽

The Brain ◽

Formalin Fixed

Abstract BACKGROUND The fiber tracts of the cerebrum may be a more important determinant of resection limits than the cortex. Better knowledge of the 3-dimensional (3-D) anatomic organization of the fiber pathways is important in planning safe and accurate surgery for lesions within the cerebrum. OBJECTIVE To examine the topographic anatomy of fiber tracts and subcortical gray matter of the human cerebrum and their relationships with consistent cortical, ventricular, and nuclear landmarks. METHODS Twenty-five formalin-fixed human brains and 4 whole cadaveric heads were examined by fiber dissection technique and ×6 to ×40 magnification. The fiber tracts and central core structures, including the insula and basal ganglia, were examined and their relationships captured in 3-D photography. The depth between the surface of the cortical gyri and selected fiber tracts was measured. RESULTS The topographic relationships of the important association, projection, and commissural fasciculi within the cerebrum and superficial cortical landmarks were identified. Important landmarks with consistent relationships to the fiber tracts were the cortical gyri and sulci, limiting sulci of the insula, nuclear masses in the central core, and lateral ventricles. The fiber tracts were also organized in a consistent pattern in relation to each other. The anatomic findings are briefly compared with functional data from clinicoradiological analysis and intraoperative stimulation of fiber tracts. CONCLUSION An understanding of the 3-D anatomic organization of the fiber tracts of the brain is essential in planning safe and accurate cerebral surgery.

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Posterior Quadrant Disconnection: A Fiber Dissection Study

Operative Neurosurgery ◽

10.1093/ons/opx060 ◽

2017 ◽

Vol 14 (1) ◽

pp. 45-50 ◽

Cited By ~ 7

Author(s):

Alexander Verhaeghe ◽

Thomas Decramer ◽

Wim Naets ◽

Wim Van Paesschen ◽

Johannes van Loon ◽

...

Keyword(s):

White Matter ◽

Corpus Callosum ◽

Anatomic Study ◽

Posterior Cortex ◽

Optimal Outcomes ◽

Posterior Quadrant ◽

Fiber Dissection ◽

Temporal Stem ◽

Dissection Technique ◽

The Brain

AbstractBACKGROUNDPosterior quadrant disconnection can be highly effective in the surgical treatment of selected cases of refractory epilepsy. The technique aims to deafferent extensive areas of epileptogenic posterior cortex from the rest of the brain by isolating the temporoparietooccipital cortex.OBJECTIVETo describe this procedure and relevant white matter tracts with a specific emphasis on the extent of callosotomy in an anatomic study.METHODSTwenty hemispheres were dissected according to Klingler's fiber dissection technique illustrating the peri-insular (temporal stem, superior longitudinal fasciculus, corona radiata) and mesial disconnection (mesiotemporal cortex, cingulum, and corpus callosum).RESULTSExtensive white matter tract disconnection is obtained after posterior quadrant disconnection. Callosal fibers connecting the anterior most part of the parietal cortex invariably ran through the isthmus of the corpus callosum and need to be disconnected, while frontal lobe connections including the corticospinal tract and the anterior two-thirds of the corpus callosum are spared during the procedure.CONCLUSIONOur findings suggest the involvement of both the splenium and the isthmus in interhemispheric propagation in posterior cortex epilepsies. Sectioning the total extent of the posterior one-third of the corpus callosum might therefore be necessary to achieve optimal outcomes in posterior quadrant epilepsy surgery.

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Anatomy of the Anterior Temporal Lobe and the Frontotemporal Region Demonstrated by Fiber Dissection

Neurosurgery ◽

10.1227/01.neu.0000140843.62311.24 ◽

2004 ◽

Vol 55 (5) ◽

pp. 1174-1184 ◽

Cited By ~ 74

Author(s):

Diedrik Peuskens ◽

Johannes van Loon ◽

Frank Van Calenbergh ◽

Raymond van den Bergh ◽

Jan Goffin ◽

...

Keyword(s):

White Matter ◽

Temporal Lobe ◽

Anterior Commissure ◽

Three Dimensional ◽

Dimensional Structure ◽

Surgical Approaches ◽

Anterior Temporal Lobe ◽

White Matter Tracts ◽

Fiber Dissection ◽

Dissection Technique

Abstract OBJECTIVE: The white matter structure of the anterior temporal lobe and the frontotemporal region is complex and not well appreciated from the available neurosurgical literature. The fiber dissection method is an excellent means of attaining a thorough knowledge of the three-dimensional structure of the white matter tracts. This study was performed to demonstrate the usefulness of the dissection technique in understanding the white matter anatomy and the effects of current surgical approaches on the subcortical structure of the region. METHODS: Seventeen brain specimens obtained at routine autopsy were dissected by use of Klingler's fiber dissection technique after preparation by fixation and freezing. The dissections were performed with an operating microscope and followed a stepwise pattern of progressive white matter dissection. RESULTS: The dissection is described in an orderly fashion showing the white matter tracts of the anterior temporal lobe and the frontotemporal region. An insight is gained into the three-dimensional course of the anterior loop of the optic radiation, the temporal stem, the anterior commissure, and the ansa peduncularis. CONCLUSION: The anterior temporal lobe and the frontotemporal region contain several important white matter tracts that can be uniquely understood by performing a white matter dissection of the region. Surgical procedures on the anterior temporal lobe differ substantially as to their repercussions on the subcortical white matter tract anatomy, as shown by the findings in this study.

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Cerebral Impedance Changes After Circulatory Arrest

American Journal of Physiology-Legacy Content ◽

10.1152/ajplegacy.1956.187.1.180 ◽

1956 ◽

Vol 187 (1) ◽

pp. 180-192 ◽

Cited By ~ 172

Author(s):

A. van Harreveld ◽

Sidney Ochs

Keyword(s):

Room Temperature ◽

Circulatory Arrest ◽

Cortical Surface ◽

Sudden Increase ◽

Lateral Sinus ◽

Large Drop ◽

Lateral Aspect ◽

Transport Of Ions ◽

The Brain ◽

Rapid Drop

Cerebral impedance in the rabbit was measured between two electrodes placed on the dorso-lateral aspect of a hemisphere. The real part (resistance) was by far the larger component of the impedance. The effect of circulatory arrest on the reciprocal of the resistance (conductance) was examined. After cutting the aorta the brain conductance decreases, first slowly for 1–5 minutes. Then there is a sudden large drop in conductivity which is closely correlated in time with the development of a cortical negativity (asphyxial potential). After the rapid drop, the conductivity continues to decrease at a diminishing rate until after 4–5 hours the conductivity is only 20–30% of the value before circulatory arrest. The following factors were found to contribute to the drop in conductivity. Cooling of the brain to room temperature (25°C) causes a decrease of about 20%. Draining of fluid from the cortical surface and lateral sinus and perhaps draining of intercellular fluid accounted for a drop of 15–20% of the original conductivity. The emptying of blood vessels was estimated to cause a decrease of the order of 10%. Including its onset and decline the rapid conductance drop may cause a decrease of 30–35% of the original conductivity. It was postulated that the rapid conductivity drop is due to a transport of ions from the intercellular compartment into the cells and fibers of the brain tissue caused by a sudden increase in membrane permeability which also would cause the asphyxial potential.

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Anatomic Study of the Central Core of the Cerebrum Correlating 7-T Magnetic Resonance Imaging and Fiber Dissection With the Aid of a Neuronavigation System

Operative Neurosurgery ◽

10.1227/neu.0000000000000271 ◽

2013 ◽

Vol 10 (2) ◽

pp. 294-304 ◽

Cited By ~ 8

Author(s):

Carlos Alarcon ◽

Matteo de Notaris ◽

Kenneth Palma ◽

Guadalupe Soria ◽

Alessandro Weiss ◽

...

Keyword(s):

Magnetic Resonance Imaging ◽

White Matter ◽

Magnetic Resonance ◽

Ex Vivo ◽

Central Core ◽

Resonance Imaging ◽

Anatomic Study ◽

Neuronavigation System ◽

Fiber Dissection ◽

Dissection Technique

Abstract BACKGROUND: Different strategies have been used to study the fiber tract anatomy of the human brain in vivo and ex vivo. Nevertheless, the ideal method to study white matter anatomy has yet to be determined because it should integrate information obtained from multiple sources. OBJECTIVE: We developed an anatomic method in cadaveric specimens to study the central core of the cerebrum combining traditional white matter dissection with high-resolution 7-T magnetic resonance imaging (MRI) of the same specimen coregistered using a neuronavigation system. METHODS: Ten cerebral hemispheres were prepared using the traditional Klingler technique. Before dissection, a structural ultrahigh magnetic field 7-T MRI study was performed on each hemisphere specifically prepared with surface fiducials for neuronavigation. The dissection was then performed from the medial hemispheric surface using the classic white fiber dissection technique. During each step of the dissection, the correlation between the anatomic findings and the 7-T MRI was evaluated with the neuronavigation system. RESULTS: The anatomic study was divided in 2 stages: diencephalic and limbic. The diencephalic stage included epithalamic, thalamic, hypothalamic, and subthalamic components. The limbic stage consisted of extending the dissection to complete the Papez circuit. The detailed information given by the combination of both methods allowed us to identify and validate the position of fibers that may be difficult to appreciate and dissect (ie, the medial forebrain bundle). CONCLUSION: The correlation of high-definition 7-T MRI and the white matter dissection technique with neuronavigation significantly improves the understanding of the structural connections in complex areas of the human cerebrum.

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Halothane sensitizes cutaneous nociceptors in monkeys

Journal of Neurophysiology ◽

10.1152/jn.1984.52.4.762 ◽

1984 ◽

Vol 52 (4) ◽

pp. 762-770 ◽

Cited By ~ 36

Author(s):

J. N. Campbell ◽

S. N. Raja ◽

R. A. Meyer

Keyword(s):

Receptive Field ◽

Mechanical Stimuli ◽

Pentobarbital Sodium ◽

Cumulative Response ◽

C Fiber ◽

Nociceptive Afferents ◽

Fiber Dissection ◽

The Mean ◽

Thermal Stimulator ◽

Dissection Technique

The effects of halothane on the responses of C-fiber (CMHs) and A-fiber (AMHs) nociceptive afferents sensitive to mechanical and heat stimuli were studied in monkeys. The response to heat stimuli was studied with use of a laser thermal stimulator that provided stepped increases in skin temperature over a 7.5-mm-diameter area with rise times to the desired temperature near 100 ms. Recordings were obtained from single fibers that innervated the glabrous skin of the hand using a teased-fiber dissection technique. In initial studies the response of 32 CMHs and 45 AMHs in monkeys anesthetized with pentobarbital sodium (3-6 mg X kg-1 X h-1) was compared with the response of 12 CMHs and 23 AMHs in monkeys anesthetized with a combination of halothane (0.8%) and N2O (67%). A standardized set of 10 3-s heat stimuli ranging from 41 to 49 degrees C delivered every 30 s were applied to the receptive field. Both AMHs and CMHs had a lower threshold and greater response to suprathreshold heat stimuli under conditions of halothane-N2O anesthesia. The threshold to mechanical stimuli, as tested by von Frey hairs, was not significantly different. Five CMHs and 5 AMHs were studied in a crossover study in which responses to the 41-49 degrees C stimuli were obtained first under halothane-N2O (0.8%-67%) anesthesia, then under an ultrashort acting barbiturate, methohexital (2-9 mg/kg over 15 min), and finally once again under halothane-N2O anesthesia. For the five CMHs, the mean cumulative response was 1.8 times greater, whereas for the five AMHs the response was 4.7 times greater under halothane as opposed to barbiturate anesthesia.(ABSTRACT TRUNCATED AT 250 WORDS)

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