Optimizing Reconstruction in Craniosynostosis: Review of Nonsyndromic Patients Treated With a Novel Technique.

PURPOSE: Open cranial vault remodeling (CVR) with autologous split calvarial bone grafts redistributes and recontours an abnormal calvarium to create an expanded cranial vault in patients with craniosynostosis. We report a 12-year retrospective review of 162 nonsyndromic patients who underwent operative repair using our previously-described technique which portends excellent surgical outcomes and can be applied to patients of any age group and with any variety of suture fusion. METHODS: Data was gathered on patients who underwent CVR from 2005 to 2016. Surgical records for each patient were analyzed and included operative time, estimated blood loss, and intraoperative transfusion volumes. Intraoperative and postoperative complications, the need for revision surgery, postoperative length of stay, and follow-up records were also reviewed. Syndromic patients were excluded, as well as patients with incomplete data sets. Patients who underwent either anterior or posterior vault remodeling were compared. RESULTS: A total of 162 patients were included in this case series. Patients undergoing anterior CVR were significantly older than those undergoing posterior CVR (13.3 versus 11.0 months, P < 0.015) and also had significantly greater intraoperative red blood transfusion volumes (20.3 versus 15.3cc/kg, P < 0.0207) and longer operative time than posterior CVR patients (274.9 versus 216.7 minutes, P < 0.0001). No patients required reoperation for resorption or recurrence or persistent contour irregularities. There were no visual or neurological complications. Calvarial bone was successfully split in 100% of cases. CONCLUSIONS: This surgical approach to CVR results in good surgical outcomes with a low recurrence rate, while also maximizing operative efficiency, and minimizing total blood loss and transfusion volume. This technique can be applied to any affected suture in a patient with craniosynostosis and in patients of any age group.

Sagittal Craniosynostosis with Uncommon Anatomical Pathologies in a 56-Year-Old Male Cadaver.

Sagittal craniosynostosis (CS) is a pathologic condition that results in premature fusion of the sagittal suture, restricting the transverse growth of the skull leading in some cases to elevated intracranial pressure and neurodevelopmental delay. There is still much to be learned about the etiology of CS. Here, we report a case of 56-year-old male cadaver that we describe as sagittal CS with torus palatinus being an additional anomaly. The craniotomy was unsuccessful (cephalic index, CI = 56) and resulted in abnormal vertical outgrowth of the craniotomized bone strip. The histological analysis of the latter revealed atypical, noncompensatory massive bone overproduction. Exome sequencing of DNA extracted from the cadaveric tissue specimen performed on the Next Generation Sequencing (NGS) platform yielded 81 genetic variants identified as pathologic. Nine of those variants could be directly linked to CS with five of them targeting RhoA GTPase signaling, with a potential to make it sustained in nature. The latter could trigger upregulated calvarial osteogenesis leading to premature suture fusion, skull bone thickening, and craniotomized bone strip outgrowth observed in the present case.

The history of intracranial infections.

The 19th and 20th centuries heralded the advancement of our understanding of surgical infections, reducing the risk of morbidity and mortality to patients by overturning long-held dogmas surrounding infections and perioperative care. These advancements impacted the development and establishment of the field of neurological surgery by minimizing surgical risk through aseptic techniques and promoting surgical benefit via improved neurological localization and surgical technique. Infections were significant contributors to morbidity and mortality for all surgical patients, and historically almost half of patients lost their lives as a consequence of perioperative wound contamination. With advancing understanding of germ theory, contagion, antisepsis, and subsequently asepsis, the surgeon began embracing the knowledge and techniques which would hone their craft and allow for a renaissance in the management of neurological disorders in an unprecedented manner.

Virtual modeling, stereolithography, and intraoperative CT guidance for the optimization of sagittal synostosis reconstruction: a technical note.

INTRODUCTION: Sagittal synostosis affects 1 in 1000 live births and may result in increased intracranial pressure, hindrance of normal neural development, and cosmetic deformity due to scaphocephaly. Historically, several approaches have been utilized for surgical correction and recently, computed tomography (CT)-guided reconstruction procedures are increasingly used. In this report, the authors describe the use of a CT-derived virtual and stereolithographic (3D printed) craniofacial models, which are used to guide intraoperative bone placement, and intraoperative CT guidance for confirmation of bone placement, to ensure the accuracy of surgical correction of scaphocephaly, as demonstrated to parents. METHODS: Preoperative high-resolution CT imaging was used to construct 3D image sets of the skulls of two infants (a 14-month-old female and a 6-month-old male) with scaphocephaly. These 3D image sets were then used to create a virtual model of the proposed surgical correction for each of the infants' deformities, which was then printed and made available for use intraoperatively to plan the bone flap, fashion the bone cuts, and optimize graft placement. After the remodeling, adherence to the preoperative plan was assessed by overlaying a CT scan of the remodeled skull with the virtual model. Deviations from the preoperative model were noted. RESULTS: Both patients had excellent postoperative cosmetic correction of head shape and contouring. The mean operative time was 5 h, blood loss was 100 ml, and one child required modification of the subocciput after intraoperative imaging showed a deviation of the reconstruction from the surgical goal as depicted by the preoperative model. CONCLUSION: The addition of neuro-navigation to stereolithographic modeling ensured the accuracy of the reconstruction for our patients and provided greater confidence to both surgeons and parents. While unisutural cases are presented for clarity, correction was still required for one patient. The cost of the models and the additional CT required must be weighed against the complexity of the procedure and possibly reserved for patients with potentially complicated corrections.

Diffusion tensor imaging and ventricle volume quantification in patients with chronic shunt-treated hydrocephalus: a matched case-control study.

OBJECTIVEThe object of this study was to use diffusion tensor imaging (DTI) and tract-based spatial statistics (TBSS) to characterize the long-term effects of hydrocephalus and shunting on white matter integrity and to investigate the relationship of ventricular size and alterations in white matter integrity with headache and quality-of-life outcome measures.METHODSPatients with shunt-treated hydrocephalus and age- and sex-matched healthy controls were recruited into the study and underwent anatomical and DTI imaging on a 3-T MRI scanner. All patients were clinically stable, had undergone CSF shunt placement before 2 years of age, and had a documented history of complaints of headaches. Outcome was scored based on the Headache Disability Inventory and the Hydrocephalus Outcome Questionnaire. Fractional anisotropy (FA) and other DTI-based measures (axial, radial, and mean diffusivity; AD, RD, and MD, respectively) were extracted in the corpus callosum and internal capsule with manual region-of-interest delineation and in other regions with TBSS. Paired t-tests, corrected with a 5% false discovery rate, were used to identify regions with significant differences between patients and controls. Within the patient group, linear regression models were used to investigate the relationship between FA or ventricular volume and outcome, as well as the effect of shunt-related covariates.RESULTSTwenty-one hydrocephalus patients and 21 matched controls completed the study, and their data were used in the final analysis. The authors found significantly lower FA for patients than for controls in 20 of the 48 regions, mostly posterior white matter structures, in periventricular as well as more distal tracts. Of these 20 regions, 17 demonstrated increased RD, while only 5 showed increased MD and 3 showed decreased AD. No areas of increased FA were observed. Higher FA in specific periventricular white matter tracts, tending toward FA in controls, was associated with increased ventricular size, as well as improved clinical outcome.CONCLUSIONSThe study shows that TBSS-based DTI is a sensitive technique for elucidating changes in white matter structures due to hydrocephalus and chronic CSF shunting and provides preliminary evidence that DTI may be a valuable tool for tailoring shunt procedures to monitor ventricular size following shunting and achieve optimal outcome, as well as for guiding the development of alternate therapies for hydrocephalus.

Neurointerventional participation in craniopagus separation.

Craniopagus-type conjoined twins (joined at the head) are exceedingly rare. Separation of craniopagus conjoined twins is a challenging task mainly owing to complex vascular anatomy and limited experience with this disorder. Modern neuroimaging techniques including digital subtraction angiography can be used to preoperatively assess the cerebral vascular system. These techniques can also provide the raw data to fabricate three-dimensional true-scale models. We report a case in which endovascular techniques have been used in the separation of craniopagus conjoined twins. To our knowledge there are no reports of successful incorporation of neurointerventional methods in the disconnection of shared venous channels.

Use of a customized 3D "basket" to create a solitary split-thickness cranial graft from numerous split fragments in an infant.

While autologous split calvaria remains the preferred material for use in pediatric cranioplasty, it may be difficult to split the bone neatly into two distinct pieces, especially in infants and young children. In this paper, the authors present a technique in which numerous split pieces of bone can be readily joined together and conformed to the shape of the specific defect using a customized template and 3D trellis-like basket.

A case of basilar artery aneurysm rupture from 1836: lessons in clinical observation and the natural history of the disease.

Although credit is given to Sir William Gull for highlighting the clinical picture of subarachnoid hemorrhage in 1859, we discuss a case presented by Mr. Egerton A. Jennings, Fellow of the Linnaean Society, published 23 years earlier in the 1836 edition of the Transactions of the Provincial Medical and Surgical Association. This case, probably the first reported in the English language of a basilar aneurysm rupture, is of medico-historical interest. Jennings provided a remarkably accurate and detailed description of the patient, who experienced coma as a result of the severity of subarachnoid hemorrhage. The detailed clinical observations on initial assessment and the description of the patient's deterioration to the time of death are a succinct representation of the natural history of this disease. The author's discussion provides evidence of a philosophy committed to medical education and progress at the time based on principles of rational observation, meticulous clinical acumen, insight into experimental physiology, and the awareness of ethical boundaries. In provincial 1836 England, similar to most of Europe, cerebral localization was elementary. Nonetheless, this case report highlights the attempt at linking structure to function by means of observation on the effects of lesioning. It provides evidence of an established thought process already in progress in England in the 19th century. It is characteristic that this thought process came from a surgical practitioner. The cultivation of practical observation in British surgical culture would allow the late 19th century surgeon scientists to match the contributions of British neurologists with landmark steps in the development and establishment of neurosurgery.

Craniocerebral disproportion: a topical review and proposal toward a new definition, diagnosis, and treatment protocol.

INTRODUCTION: At some point in their lives, patients previously shunted for hydrocephalus may experience chronic, debilitating headaches, despite the fact that their shunts are functioning properly. Previously published reports have suggested that a subset of these patients may be suffering from an iatrogenic craniocerebral disproportion (CCD) and, therefore, may benefit from procedures that expand the available intracranial space. A unified definition of this disorder, however, is lacking. DISCUSSION: Here, the authors chart the history (including historical terminology) of CCD, review its incidence, describe its signs, symptoms, and associated radiologic findings, and expound upon its pathophysiology. Next, a concise clinical definition of CCD based on the temporal correlation of headaches with the appearance of plateau waves on intracranial pressure (ICP) monitoring is proposed. The authors conclude with a discussion of the various therapeutic strategies employed previously to treat this disorder and present their individualized treatment strategy based upon the simultaneous utilization of ICP monitors and gradual external cranial vault expansion.

Successful treatment of post-shunt craniocerebral disproportion by coupling gradual external cranial vault distraction with continuous intracranial pressure monitoring.

A subset of hydrocephalic patients in whom shunts are placed at an early age will develop craniocerebral disproportion (CCD), an iatrogenic mismatch between the fixed intracranial volume and the growing brain. The lack of a reliable, reproducible method to diagnose this condition, however, has hampered attempts to treat it appropriately. For those practitioners who acknowledge the need to create more intracranial space in these patients, the lack of agreed-upon therapeutic end points for cranial vault expansion has limited the use of such techniques and has sometimes led to problems of underexpansion. Here, the authors present a definition of CCD based primarily on the temporal correlation of plateau waves on intracranial pressure (ICP) monitoring and headache exacerbation. The authors describe a technique of exploiting continued ICP monitoring during progressive cranial expansion in which the goal of distraction is the cessation of plateau waves. Previously encountered problems of underexpansion may be mitigated through the simultaneous use of ICP monitors and gradual cranial expansion over time.

Infections of the spinal subdural space in children: a series of 11 contemporary cases and review of all published reports. A multinational collaborative effort.

INTRODUCTION: Positioned anatomically between the spinal epidural space and the intramedullary compartment, the spinal subdural space remains the least common area of localized infection in the central nervous system. Infectious processes of the subdural spinal space include subdural spinal empyema, subdural spinal abscess, infected spinal subdural cyst, and infectious spinal subdural cyst. To date, there has been no systematic review of these entities in children, with the cumulative knowledge of the pathophysiologic, microbiologic, and demographic characteristics of these infections relegated solely to few small series and case reports. METHODS: A series of 11 recent cases culled from the collaboration of international authors are presented. In addition, an exhaustive MEDLINE search and manual review of the international literature was performed, identifying a total of 73 cases of spinal subdural infections in patients under the age of 21. Data of interest include the age, sex, signs, and symptoms at presentation, spinal location of infection, presence of spinal dysraphism, and other comorbidities, offending organism, treatment, outcome, and follow-up. RESULTS: Patients ages ranged from 4 weeks to 20 years (mean, 6.5 years). Males outnumbered females by a ratio of 2:1. Over half (53 %) of spinal subdural infections in children were associated with spinal dysraphism or other congenital abnormalities of the spine. The commonest organism to infect the spinal subdural space in children is mycobacterium tuberculosis and the thoracic spinal region was most commonly infected. CONCLUSIONS: The disease is usually treated surgically, although a more expectant approach consisting of antibiotics and observation has also been proposed.

Separation of craniopagus conjoined twins with a staged approach.

The separation of craniopagus conjoined twins is a very rare and complex challenge. As with many rare challenges, it presents initially as a deceptively simple problem requiring only the most basic clinical techniques. As in many reconstructive problems, this paradigm mandates that the neurosurgical team performs the separation with the plastic surgeons providing closure at the end of the separation. Historically, these approaches have included, as with the separation of many other types of conjoined twins, the use of tissue expansion before separation followed by separation surgery. In the best hands, at the most capable medical centers, the mortality reported in the literature for the past 50 years is greater than 50%. Craniofacial surgery frequently demands a coordinated effort between plastic surgery and neurosurgery and many other specializations; separating craniopagus twins takes this coordination to a stratospheric level. It is, however, this coordination that is of paramount importance. Success clearly requires an understanding of the complex interrelationship between the "separation" and the "reconstruction" and that decisions made for 1 aspect of the surgery will have a profound impact on another aspect of the surgery. The impact can be disastrous or, if planned well, can be advantageous.We were contacted to evaluate craniopagus conjoined male infant twins for separation. Radiographic studies suggested that the brains were separate, and their medical team suggested that they were "fit for separation." We reviewed the literature and reviewed our colleagues' experiences with similar cases around the world. It became clear that whether separation had been unsuccessful or successful, a variety of issues accompanied surgery as follows: (1) massive intraoperative hemorrhage, (2) cerebral edema, (3) venous infarcts, (4) swelling of flaps, and (5) dehiscence of repairs with cerebrospinal fluid (CSF) leak, meningitis, or brain exposure. Although the initial plan was to separate the twins in the same fashion as in previous cases (ie, single-stage separation surgery preceded by tissue expansion of the scalp), it was clear that this approach increases cerebral venous pressure during the separation component of surgery and therefore set up a cascade of events favoring failure rather than success. Wishing to favor success, we elected to design an open-ended multistaged separation to improve venous collateral circulation. We believe that this would improve venous drainage, prevent increased venous pressure, diminish cerebral edema, and favor the integrity of the dura and flap repair that would in turn lessen the risk of CSF leak. The stages would also allow the twins to recover from each stage before progressing to the next stage while continuing to receive nutritional support and physical therapy. Four major stages for 9 ½ months led to their successful separation. There has been no CSF leak or meningitis. To our knowledge, this technique has since been applied to 2 other sets of craniopagus with similar outcomes.A review of the pertinent literature, our rationale, and methodology are discussed in this article.

Germline mosacism in Shprintzen-Goldberg syndrome.

We report on maternal half-sibs born to unaffected, non-consanguineous parents with classical Shprintzen-Goldberg syndrome (SGS) who had in addition intestinal malrotation and an aberrant subclavian artery. In one other SGS family germline mosaicism has been described. SGS is molecularly heterogeneous and has been linked to mutations in three genomic loci. This suggests there may be multiple other genetic factors that result in a common clinical phenotype and a number of investigators have implicated a fourth region (15q25-qter) in the etiology of SGS.

Marvelous medicine: the untold story of the Wade-Dahl-Till valve.

On December 5, 1960, 4-month-old Theo Dahl, the only son of best-selling author Roald Dahl (1916-1990), had his skull shattered in a horrific traffic accident. What began as a personal tragedy for the Dahl family would soon evolve into a dogged crusade by Dahl to expand upon preexisting valve technology with the goal of developing a shunt that would not become obstructed. Based upon exclusive access to private archives of the Dahl estate, as well as interviews with those involved, this article tells the intricate tale of one famous father's drive to significantly alter the natural history of pediatric hydrocephalus. Dahl's collaboration with British toymaker Stanley Wade and pioneering pediatric neurosurgeons Joseph Ransohoff, Kenneth Shulman, and Kenneth Till to create the Wade-Dahl-Till (WDT) valve is examined in detail. The ensuing rift between the American and British contingents, the valve's multiple design revisions, and the goal of creating an affordable shunt for children in developing countries are among the issues addressed. The development of the WDT valve marked a significant turning point in the surgical management of pediatric hydrocephalus in general and in shunt valve technology in particular.