The crippled brain that prolonged the Civil War: General Joseph Hooker's concussions at Chancellorsville.

President Lincoln appointed General Joseph Hooker to command the Army of the Potomac in January 1863. In April 1863, Hooker had 130,000 men compared to the Confederate Army's 60,000. The Union forces had more food, clothing, and ammunition. On a decisive day of the Chancellorsville campaign, as Hooker stood on his headquarters porch, a cannonball struck the pillar against which he was leaning. He was hurled to the floor, stunned and senseless. Unconsciousness followed a lucid interval, requiring rest, when another cannonball struck near him. Half of the army was not thrust into battle, resulting in retreat, because Hooker was not capable of commanding. Hooker's army missed the opportune time to attack; the order was never received because Hooker suffered a traumatic brain injury. Under current military protocol, Hooker would not be allowed to return to participation. During this crucial period a reporter stated, "the precious hour passed, while our army was without a head." The Chancellorsville campaign resulted in Union retreat. Hooker's disabling traumatic brain injury prevented him from giving orders and changing the battle's outcome. Had the general not sustained a concussion, the Civil War probably would have ended earlier.

Dr. Louise Eisenhardt's personal notes: how she and Dr. Cushing collected data and followed patients.

Dr. Louise Eisenhardt was one of the first neuropathologists and was responsible for the development of tumor diagnosis guidelines. This historical vignette reviews her previously unseen handwritten notes in which she describes methods used by her and Dr. Harvey Cushing to obtain patient follow-up data for their Brain Tumor Registry. Her description spans 50 years, using "every possible clue to be jumped upon in [their] clinical records and correspondence." Their follow-up was divided into two periods: early follow-up (1912-1932) and registry (1933-1961). During early follow-up, patients were asked to write to them on the anniversary of their operation. The foundation of the registry necessitated the use of "considerable effort on [their] part to gather up old threads" including renewed contact with patients after 15-20 years. Methods of follow-up included continued verbal and written correspondence with patients and "strong-arm methods," including use of the Fuller Brush man and the exhumation of a body. Drs. Eisenhardt and Cushing believed "every case was important in adding to our collective knowledge of various types of tumors particularly in relationship to life expectancies and suggesting improvement in surgical treatments." Dr. Eisenhardt's meticulous record keeping allows for insights into the first known outcomes-related tumor registry in neurosurgery.

Free Tissue Transfer for Repair of Chronic Esophageal Perforations.

OBJECTIVE: Anterior cervical discectomy and fusion have become a common intervention for cervical spine stabilization. However, complications can cause life-threatening morbidity. Among them, esophageal perforation is associated with severe morbidity, including dysphagia, malnutrition, and infection with the potential development of mediastinitis. Presentation is variable but often results in chronic morbidity. Herein we examine our experiences in the management of esophageal perforation with microvascular free tissue transfer. STUDY DESIGN: Retrospective review from January 2013 to September 2020. SETTING: Single academic tertiary care center. METHODS: This study comprised all patients (age, 41-73 years) undergoing free tissue transfer for the repair of chronic esophageal perforation secondary to anterior cervical discectomy and fusion at an academic tertiary care center. Four patients underwent repair via vastus lateralis myofascial onlay grafting for defects ≤2 cm in greatest dimension, while 1 patient underwent a fasciocutaneous radial forearm free flap repair of an 11 × 5-cm defect. RESULTS: Defect location ranged from hypopharynx to cervical esophagus. Mean operative time was 6.2 hours; the average length of stay for all patients was 6.6 days. Of 5 patients, 1 required additional hardware placement for spine stabilization. All patients underwent gastrostomy tube placement to bypass the surgical site during healing, and all eventually resumed an oral diet postoperatively. Recurrent fistula occurred in 1 of 5 patients. No flap failures were encountered in the study population. CONCLUSION: Vastus lateralis myofascial onlay grafting and fasciocutaneous radial forearm free flap are robust, relatively low-morbidity interventions with a high success rate for definitive repair of chronic esophageal perforation. Repair should be undertaken in concert with a spine surgeon for management of the cervical spine.

John F. Kennedy's back: chronic pain, failed surgeries, and the story of its effects on his life and death.

The 35th president of the United States, John F. Kennedy (JFK), experienced chronic back pain beginning in his early 20s. He underwent a total of 4 back operations, including a discectomy, an instrumentation and fusion, and 2 relatively minor surgeries that failed to significantly improve his pain. The authors examined the nature and etiology of JFK's back pain and performed a detailed investigation into the former president's numerous medical evaluations and treatment modalities. This information may lead to a better understanding of the profound effects that JFK's chronic back pain and its treatment had on his life and presidency, and even his death.

Impact of 20th Century Wars on the Development of Neurosurgery.

The treatment of neurosurgical casualties suffered during the wars of the 20th century had a significant impact on the formation and early growth of neurosurgery as a specialty. This chapter explores how the evolution of military tactics and weaponry along with the circumstances surrounding the wars themselves profoundly influenced the field. From the crystallization of intracranial projectile wound management and the formal recognition of the specialty itself arising from World War I experiences to the radical progress made in the outcomes of spinal-cord-injured soldiers in World War II or the fact that the neurosurgical training courses commissioned for these wars proved to be the precursors to modern neurosurgical training programs, the impact of the 20th century wars on the development of the field of neurosurgery is considerable.

Early craniometric tools as a predecessor to neurosurgical stereotaxis.

In this paper the authors trace the history of early craniometry, referring to the technique of obtaining cranial measurements for the accurate correlation of external skull landmarks to specific brain regions. Largely drawing on methods from the newly emerging fields of physical anthropology and phrenology in the late 19th and early 20th centuries, basic mathematical concepts were combined with simplistic (yet at the time, innovative) mechanical tools, leading to the first known attempts at craniocerebral topography. It is important to acknowledge the pioneers of this pre-imaging epoch, who applied creativity and ingenuity to tackle the challenge of reproducibly and reliably accessing a specific target in the brain. In particular, with the emergence of Broca's theory of cortical localization, in vivo craniometric tools, and the introduction of 3D coordinate systems, several innovative devices were conceived that subsequently paved the way for modern-day stereotactic techniques. In this context, the authors present a comprehensive and systematic review of the most popular craniometric tools developed during this time period (prior to the stereotactic era) for the purposes of craniocerebral measurement and target localization.

Jacques Bénigne Winslow (1669-1760) and the misnomer cavernous sinus.

Sinus cavernosi, or the cavernous sinus, was coined by Jacques Bénigne Winslow in the 18th century. Among the neurosurgeons and the modern-day neuroanatomists, Winslow is mainly known for erroneously using the term cavernous sinus. As the anatomical understanding of the parasellar space advanced during the next 200 years, it was unclear as to why Winslow compared this space in the brain with that of a male reproductive organ (corpus cavernosum). Our primary objective was to study the historical treatise on anatomy written by Winslow in the 18th century and analyze his anatomical dissections and nomenclature for the parasellar compartment. In addition, his pertinent contributions to neuroscience are highlighted in this vignette.

The influence of war on the development of neurosurgery.

The treatment of craniospinal war wounds proved to be a significant driving force in the early growth of neurosurgery as a specialty. This publication explores the historical relationship between the evolution of combat methodology from antiquity through modern conflicts as it dovetails with and drives corresponding advancements in the field of neurosurgery. Whether it's the basic management principles for intracranial projectile wounds derived from World War I experiences, the drastic improvement in the outcomes and management of spinal cord injuries observed in World War II, or the fact that both of these wars played a crucial role in the development of a training system that is the origin of modern residency programs, the influence of wartime experiences is pervasive.

Placement of unilateral lag screw through the lateral mass of C-1: description of a novel technique.

Over the past several decades, many advancements and new techniques have emerged regarding the instrumentation and stabilization of the upper cervical spine. In this article, the authors describe a novel technique in which a unilateral lag screw was placed to reduce and stabilize a progressively widening fracture and nonunion of the right C-1 lateral mass approximately 8 weeks after the initial injury, which was sustained when a large tree branch fell onto the patient's posterior head and neck.

The legacy of Johann Friedrich Meckel the Elder (1724-1774): a 4-generation dynasty of anatomists.

Few families have had an impact on medicine to equal that of the Meckel family. Johann Friedrich Meckel the Elder is of special interest to the neurosciences, given that his dissertation on the fifth cranial nerve included the first description of the arachnoid space investing the trigeminal nerve into the middle fossa. He was interested in neuroanatomy, along with botany and pathology of the inguinal hernia and the lymphatic system. His mentors included the eminent Albrecht von Haller (1708-1777) and August Buddaeus (1695-1753), and he extended his own influence on the work of Giovanni Morgagni and Alexander Monro II. He spent the latter part of his life in Berlin as professor of anatomy, botany, and obstetrics. His son, Philipp Friedrich Theodor Meckel (1755-1803), was one of the founders of the current collection of anatomic specimens at the University of Halle and provided important groundwork for the practice of obstetrics. Meckel the Elder's grandson, Johann Friedrich Meckel the Younger (1781-1833), was a more prolific investigator and founder of the science of teratology. Many anatomic structures, such as Meckel's diverticulum, bear his name, and he vastly expanded the university's anatomic collection. August Albrecht Meckel (1789-1829), Meckel the Younger's brother, practiced legal medicine and investigated avian anatomy but died prematurely from tuberculosis. August's son, Johann Heinrich Meckel (1821-1856), took the instructor's position in pathologic anatomy at the University of Berlin that his great-grandfather had held at the Charité. After his untimely death from pulmonary disease, his position was filled by Rudolf Virchow. The history of this family is discussed in detail.

Use of a motorized bicycle exercise trainer to normalize frequency-dependent habituation of the H-reflex in spinal cord injury.

BACKGROUND/OBJECTIVES: Spasticity in patients with spinal cord injury (SCI) is difficult to manage. Exercise and stretching is advocated as a management tool, but these activities are difficult to perform for most patients as a result of multiple barriers. This report shows the effect of passive range-of-motion exercise in a walking-like pattern on frequency-dependent habituation of the H-reflex in the lower extremities of an individual with spastic tetraplegia due to SCI. METHODS: The participant, a man with a chronic ASIA B C7 SCI due to a gunshot wound, used a motorized bicycle exercise trainer (MBET) developed at the Jackson T. Stephens Spine & Neurosciences Institute at the University of Arkansas for Medical Sciences that could be operated from the individual's wheelchair. He used the MBET for 1 hour, 5 days a week, for 13 weeks. H-reflex habituation was tested at the beginning of the study and then periodically over the course of 17 weeks, including 4 weeks after exercise had ceased. RESULTS: Significant habituation of the H-reflex was evident beginning at the 10th week of training. The habituation in the H-reflex reached a normal level at 5- and 10-Hz frequencies at 12 weeks. Subjective assessment of spasticity indicated that it was significantly reduced. The H-reflex amplitude was maintained at normal levels during the remaining week of the course of exercise and for 2 additional weeks after exercise ceased. The H-reflex habituation, however, returned to near baseline when reassessed at week 17, 4 weeks after the exercise program had concluded. Subjective assessment indicated that spasticity also had returned to pretraining levels. CONCLUSIONS: Habituation of the H-reflex, and perhaps spasticity, can be managed by a routine passive range-of-motion exercise program using a MBET, but the exercise program may need to be continuous. The benefit of reduced medication for spasticity and possibly improved quality of life could be a motivating factor for an individual with SCI and spasticity to continue the program. Because of the low complexity of the program, ease of use, and small size, this system could be inexpensive and could be used by an individual in the home. Ongoing studies will determine the minimum amount of MBET training required for maintaining long-term H-reflex habituation.

The V2 segment of the vertebral artery and its branches.

OBJECT: The goal of this study was to demonstrate the origins, courses, anastomoses, and target tissues of the arterial branches that arise from the V2 segment of the vertebral artery. METHODS: Ten adult cadaveric necks (20 V2 segment specimens) were examined (magnification x 40) after injection of colored silicon. The branches at each cervical level were classified in a new system according to anatomical features and target tissues-anterior, posterior, medial, and lateral. Incidence with which each branch category was observed at each cervical level was calculated. Anterior branches were observed at C-3 in all 20 V2 segment specimens. The incidence with which the posterior branch was present at C-4 was 45%, whereas the corresponding rates at segments superior and inferior were lower. The medial V2 segment branches were assessed in four subcategories. The anterior spinal artery was present at C-3 in all specimens, whereas the mean incidence at the C4-6 level was 46.7%. The posterior spinal artery was most frequently detected at C-3 (60%). The anterior radicular artery (RA) was present at C-5 in 50% of the specimens, whereas the posterior RA was detected at C-5 in only 35%. Lateral branches were most frequently detected at C-3. CONCLUSIONS: The authors provide detailed anatomical information about the origins, courses, anastomoses, and target tissues of the vessels that arise from the V2 segment. This new classification allows for better understanding of the vasculature of the C3-6 region.

History of the spinal cord localization.

The first reference to spinal cord injury is recorded in the Edwin Smith papyrus. Little was known of the function of the cord before Galen's experiments conducted in the second century AD. Galen described the protective coverings of the spinal cord: the bone, posterior longitudinal ligament, dura mater, and pia mater. He gave a detailed account of the gross anatomy of the spinal cord. During the medieval period (AD 700-1500) almost nothing of note was added to Galen's account of spinal cord structure. The first significant work on the spinal cord was that of Blasius in 1666. He was the first to differentiate the gray and white matter of the cord and demonstrated for the first time the origin of the anterior and posterior spinal nerve roots. The elucidation of the various tracts in the spinal cord actually began with demonstrations of pyramidal decussation by Mistichelli (1709) and Pourfoir du Petit (1710). Huber (1739) recorded the first detailed account of spinal roots and the denticulate ligaments. In 1809, Rolando described the substantia gelatinosa. The microtome, invented in 1824 by Stilling, proved to be one of the fundamental tools for the study of spinal cord anatomy. Stilling's technique involved slicing frozen or alcohol-hardened spinal cord into very thin sections and examining them unstained by using the naked eye or a microscope. With improvements in histological and experimental techniques, modern studies of spinal cord anatomy and function were initiated by Brown-Sequard. In 1846, he gave the first demonstration of the decussation of the sensory tracts. The location and direction of fiber tracts were uncovered by the experimental studies of Burdach (1826), Turck (1849), Clarke (1851), Lissauer (1855), Goll (1860), Flechsig (1876), and Gowers (1880). Bastian (1890) demonstrated that in complete transverse lesions of the spinal cord, reflexes below the level of the lesion are lost and muscle tone is abolished. Flatau (1894) observed the laminar nature of spinal pathways. The 20th century ushered in a new era in the evaluation of spinal cord function and localization; however, the total understanding of this remarkable organ remains elusive. Perhaps the next century will provide the answers to today's questions about spinal cord localization.

Occipitocervical fusion for rheumatoid arthritis using the inside-outside stabilization technique.

STUDY DESIGN: A retrospective study investigating the clinical outcome of the inside-outside cranial bolt technique for occipitocervical stabilization used to manage rheumatoid arthritis was conducted. OBJECTIVE: To evaluate the safety and efficacy of the inside-outside technique for occipitocervical stabilization used to manage rheumatoid patients. SUMMARY OF BACKGROUND DATA: Achieving occipital cervical fusion for patients with rheumatoid arthritis is a complex and challenging problem. Complications related to placement of occipital screws have been reported. METHODS: Occipitocervical stabilization was used for atlantoaxial subluxation or basilar invagination in 21 patients with rheumatoid arthritis. The patients were assessed for pre- and postoperative neurologic status (Ranawat classification), neck pain, fusion and alignment, hardware complications, and continued posterior cranial settling. All the patients underwent stabilization using inside-outside occipital screws. The technique involves bilateral fixation of cervical plates to the occiput using inside-outside screws, and to the cervical spine using pars screws at C2 or lateral mass screws at subaxial levels. Bone grafting was accomplished with autologous rib or iliac crest graft. RESULTS: During the study, 14 women and 7 men with rheumatoid arthritis underwent occipitocervical stabilization and fusion. The average age of the patients was 65 years, and the mean follow-up period was 25.5 months. There were no surgical complications. Neck pain was reduced from an average Ranawat pain score of 2.40 to 0.4 (P < 0.0001). The Ranawat neurologic grade improved in 62% of the patients with preoperative neurologic deficit. Further cranial settling was not observed in any patient. There were no complications from implants and no incidence of instrumentation failure. CONCLUSIONS: The "inside-outside" technique is safe and effective for stabilizing the occipitocervical junction in rheumatoid patients. It is associated with significant reduction of neck pain, improved neurologic status, and maintenance of alignment and stability.

Thoracic, lumbar, and sacral spine anatomy for endoscopic surgery.

We discuss the anatomy of the thoracic, lumbar, and sacral levels of the spinal cord. Given the nature of endoscopic surgery, it is recommended that the surgeon have thorough knowledge not only of the bony architecture but also of important visceral and other soft tissue structures. It is essential to understand the normal anatomy to recognize the abnormal and anatomic variations. We present the so-called normal anatomic configurations and illustrate how these structures vary at the different levels of the spinal column.