Barrow Neurological Institute
Barrow Neurological Institute (BNI) is a premier academic medical center dedicated to the diagnosis, treatment, research, and education of neurological disorders, located on the campus of Dignity Health St. Joseph's Hospital and Medical Center in Phoenix, Arizona.[1] As one of the largest neuroscience facilities in the United States, spanning 430,300 square feet with 176 beds in its Robert F. Spetzler Neuroscience Tower, BNI annually treats over 73,000 patients and performs more than 7,000 neurosurgical procedures, specializing in advanced care for brain tumors, stroke, epilepsy, spinal conditions, and movement disorders.[1][2] Established in 1958 through a philanthropic donation from Charles Barrow and officially opened in 1962 under founding director Dr. John R. Green, BNI began as one of only three dedicated neuroscience institutes in the country, featuring initial divisions in neurology, neurosurgery, neuroradiology, neurobiology, and neuropathology.[3] Key milestones include its designation as Arizona's first Level I Trauma Center in 1972, the addition of pioneering technologies like the first CT scanner in the Southwest in 1975 and surgical robotics in 2018, and the 2006 opening of the expansive Neuroscience Tower, solidifying its status as a global leader.[3] Under influential leaders such as Dr. Robert F. Spetzler, who served as director from 1986 to 2017, and current CEO Dr. Michael T. Lawton, BNI has expanded to include over 15 centers of excellence, including the Ivy Brain Tumor Center, which innovates with Phase 0 clinical trials for personalized brain cancer therapies.[3][1] BNI's research enterprise drives breakthroughs in neuroscience, with facilities like the 1997 Rochelle Neuroscience Research Center supporting investigations into Alzheimer's, Parkinson's, and neurotrauma, while its education programs are top-ranked, including the No. 1 neurosurgery residency by Doximity and a robust neurology residency accredited by the ACGME.[1][2] The institute's patient care model emphasizes multidisciplinary teams, with certifications such as Joint Commission Comprehensive Stroke Center status and CARF accreditation for neuro-rehabilitation, alongside a 46-bed inpatient rehabilitation unit ranked No. 32 nationally by U.S. News & World Report for 2025-2026.[1][4] Recognized for excellence, BNI holds the No. 14 global and No. 10 national ranking in neurosurgery by Newsweek's World's Best Specialized Hospitals 2025, and No. 21 in America's Best Hospitals for Neurological Care 2025, reflecting its high-volume expertise in over 7,000 annual procedures across 11 dedicated operating rooms.[5][6] It also ranks nationally in neurology and neurosurgery by U.S. News & World Report, with specialized pediatric neurosurgery through a partnership with Phoenix Children's, the second-largest program in the U.S. by volume.[1] BNI's commitment to innovation extends to accessible services like its $100 second-opinion program and international patient support, positioning it as a vital hub for advancing neurological health worldwide.[1]Overview
Founding and Mission
The Barrow Neurological Institute traces its origins to 1954, when Charles Barrow, a prominent coal magnate, donated an electroencephalography (EEG) machine to St. Joseph's Hospital and the Sisters of Mercy in Phoenix, Arizona, marking the beginning of a partnership focused on advancing neurological care.[3] In 1958, Barrow made a pivotal $500,000 donation to the hospital to establish a dedicated neurological institute; the donation was motivated by the exceptional care provided to his wife, Julia, by Dr. John R. Green, and made in memory of his father, William E. Barrow.[3] Construction on the institute began in 1961, culminating in its official opening on September 23, 1962, as a five-story facility equipped with 52 beds and a single neurosurgical operating room.[3] At the time, it stood as one of only three neuroscience institutes in the United States, positioning it at the forefront of specialized neurological treatment and research amid a landscape where such dedicated centers were scarce.[3] From its inception, the Barrow Neurological Institute has been guided by a mission to serve as an international leader in the treatment, research, and education of brain and spinal diseases, conditions, and injuries, with a commitment to innovative care, groundbreaking discoveries, and training the next generation of neurological experts.[1] This purpose emphasizes patient-centered excellence in neurology and neurosurgery, integrating clinical practice with scientific advancement to address complex neurological challenges.[1] Initially structured around five core divisions—neurology, neurosurgery, neuroradiology, neurobiology, and neuropathology—the institute was designed to foster interdisciplinary collaboration in diagnosing, treating, and studying neurological disorders.[3]Location and Facilities
Barrow Neurological Institute is centrally located in Phoenix, Arizona, at 2910 North Third Avenue, approximately 7 miles from Phoenix Sky Harbor International Airport, providing convenient access for patients and visitors traveling by air.[7][1] The institute's main campus is fully integrated with Dignity Health St. Joseph's Hospital and Medical Center, enabling seamless coordination between neurological research, education, and clinical care within a shared medical infrastructure.[1] The Robert F. Spetzler Neuroscience Tower serves as the core inpatient facility, spanning 430,300 square feet with 176 beds, including a 64-bed neuro-intensive care unit, 11 state-of-the-art operating rooms, a 32-bed neuro-telemetry unit, and 46 neuro-rehabilitation beds, all in private rooms to support advanced neurological treatment and recovery.[1] Complementing this, the Barrow Neuroplex, a five-story, 122,000-square-foot outpatient center opened in 2021, enhances neurosurgery and neurology services through dedicated spaces for the Department of Neurosurgery, an ambulatory surgery center, a neuro-infusion suite, and clinics for neuro-oncology, stroke, and neuro-endocrinology.[3] This expansion builds on prior developments, such as the 2006 Barrow Neuroscience Tower, which at the time was the largest dedicated neuroscience facility in the United States.[3] For pediatric care, Barrow maintains a dedicated affiliation with Phoenix Children's Hospital at 1919 East Thomas Road, operating as Barrow Neurological Institute at Phoenix Children's, which provides specialized neurological services in a child-focused environment.[8]History
Early Years (1950s-1970s)
The early development of Barrow Neurological Institute began in the mid-1950s through the philanthropic efforts of Charles A. Barrow, a philanthropist from Pennsylvania, who was motivated by the life-saving neurosurgical intervention performed by Dr. John R. Green on his wife, Julia Barrow, in 1954. That year, Barrow donated an electroencephalography (EEG) machine to St. Joseph's Hospital in Phoenix, Arizona, marking an initial contribution to neurological care at the facility operated by the Sisters of Mercy.[3] In 1958, Barrow provided a pivotal $500,000 donation to establish a dedicated neurological institute, honoring his father, William E. Barrow; this funding was matched by the Hill-Burton Act, bringing the total to approximately $1.1 million, supplemented by additional grants from the National Institutes of Health and land donations from the Sisters of Mercy valued at around $800,000.[9] These resources enabled the formal founding of the institute in 1961 under Dr. Green's leadership, Arizona's first neurosurgeon, who envisioned a comprehensive center modeled after the Montreal Neurological Institute, emphasizing integrated patient care, research, and education.[3][9] Construction of the institute's dedicated five-story building adjacent to St. Joseph's Hospital commenced in 1961 and was completed swiftly, allowing Barrow Neurological Institute to open on September 23, 1962, with 52 inpatient beds, one specialized neurosurgical operating room, and five core divisions: neurosurgery led by Dr. Green, neurology under Dr. David Daly, neuropathology directed by Dr. James W. Kernohan, neuroradiology headed by Dr. James T. Riordan, and neurobiology overseen by Dr. Eduardo Eidelberg.[3][9] That same year, the institute established foundational frameworks for basic research through the Barrow Neurological Foundation, which supported early studies in neurological disorders, and for education via clinical training programs. In 1961, prior to opening, the Neurosurgery Residency Program received accreditation from the American Board of Neurological Surgery, positioning Barrow as a key training hub for the region's emerging neurosurgeons and attracting patients primarily from the southwestern United States with complex neurological conditions such as brain tumors, epilepsy, and trauma.[3][2] By the early 1970s, Barrow had solidified its role in advanced care through strategic expansions and partnerships. In 1972, in collaboration with St. Joseph's Hospital, the institute was designated as Arizona's first Level 1 Trauma Center, enhancing its capacity to handle severe neurological injuries and establishing protocols for emergency neurosurgical interventions that served as a model for regional healthcare.[3][9] In 1975, Barrow installed the first CT scanner in the Southwest, enhancing neuroradiology services.[3] This period also saw the addition of three stories to the original building to accommodate growing patient volumes and research needs, while the core divisions continued to prioritize multidisciplinary approaches to diagnosis and treatment, laying the groundwork for Barrow's reputation in addressing underserved neurological cases in the Southwest.[9]Growth and Key Milestones (1980s-2000s)
In 1983, Dr. Robert F. Spetzler joined Barrow Neurological Institute from Case Western Reserve University, where he served as associate professor of neurosurgery, to assume the J.N. Harber Chair of Neurological Surgery.[10] Alongside Dr. Joseph Zabramski, Spetzler refined the cardiac standstill procedure, a technique involving deep hypothermic circulatory arrest to safely treat complex cerebral aneurysms previously considered inoperable.[3] By 1986, following the retirement of founding director Dr. John Green, Spetzler succeeded him as director of Barrow Neurological Institute, ushering in an era of expanded clinical and research programs focused on cerebrovascular disorders.[3] The late 1990s marked significant infrastructural and programmatic growth. In 1997, the Muhammad Ali Parkinson Center opened at Barrow, founded through the philanthropy of Muhammad Ali and his wife Lonnie, in collaboration with neurologist Dr. Abraham Lieberman, to advance multidisciplinary care for Parkinson's disease and movement disorders.[11] That same year, the $40 million Neuroscience Research Center—later renamed the Marian H. Rochelle Neuroscience Research Center—opened, providing 70,000 square feet of dedicated laboratory space for studies in neuro-oncology, neurobiology, neurochemistry, neurogenetics, pain, and epilepsy.[3] A pivotal research achievement came in 1999, when Barrow scientists, led by Dr. Joseph Zabramski and Dr. Eric Johnson, identified the gene responsible for the inherited form of cerebral cavernous malformations, a vascular disorder causing abnormal blood vessel formations in the brain; this discovery, linked to mutations in the KRIT1 gene on chromosome 7q, advanced genetic understanding and screening for familial cases.[3][12] The early 2000s saw further expansion with the 2006 opening of the 430,000-square-foot Barrow Neuroscience Tower at St. Joseph's Hospital and Medical Center, which integrated advanced patient care facilities, including 80 intensive care beds, 64 acute care beds, and 11 neurosurgical operating rooms, positioning Barrow as the largest dedicated neuroscience center in the United States.[3][13] In 2007, Dr. Spetzler performed his 5,000th aneurysm clipping procedure, a milestone that underscored his leadership in cerebrovascular surgery and Barrow's expertise in treating complex aneurysms, with the operation believed to represent the highest volume achieved by any neurosurgeon worldwide at the time.[3]Recent Developments (2010s-Present)
In 2017, Dr. Michael T. Lawton was appointed as President and CEO of Barrow Neurological Institute, succeeding Dr. Robert F. Spetzler after his retirement, bringing extensive expertise in neurosurgical oncology and vascular neurosurgery to lead the institution's strategic direction.[3] Under Lawton's leadership, Barrow has focused on enhancing operational efficiency and expanding clinical capabilities to meet evolving healthcare needs. A significant milestone occurred in 2021 with the opening of the Barrow Neuroplex, a five-story, 122,000-square-foot facility that serves as the institute's new grand entrance and central hub for advanced neurosurgery and neurology services, including dedicated divisions for neurosurgery, ENT and skull base surgery, neuro-oncology, and an ambulatory surgery center.[3] That same year, philanthropists Bill and Carolyn Franke established a $21 million endowment to fund the Franke Global Neuroscience Education Center, supporting international training programs, undergraduate research, and educational initiatives aimed at building global capacity in neuroscience.[3] Post-2010, Barrow has integrated innovative technologies to advance patient care and research, such as the introduction of the ExcelsiusGPS robotic system in 2018 for precise spine surgeries and the 2024 opening of the Neuro Analytics Center, which leverages data science and artificial intelligence to analyze neurological diseases and improve treatment outcomes.[3] In response to growing patient demand, the institute has expanded its trauma and rehabilitation services, maintaining its status as Arizona's first American College of Surgeons-verified Level I Trauma Center and enhancing the Neuro-Rehabilitation Center to provide comprehensive inpatient and outpatient care for conditions like traumatic brain injuries and strokes, now treating over 73,000 patients annually.[14][1] As of 2025, Barrow continues to emphasize its global leadership in neurological treatment, earning top rankings in Newsweek's World's Best Specialized Hospitals for neurosurgery and neurology, as well as the Global Leadership Award from Phoenix Sister Cities for its international outreach efforts.[15][16]Organization and Governance
Leadership
Michael T. Lawton, MD, has served as President and Chief Executive Officer of Barrow Neurological Institute since 2017.[17] A renowned neurosurgeon specializing in cerebrovascular disorders and skull base tumors, Lawton previously held positions at the University of California, San Francisco, where he chaired the Department of Neurological Surgery.[18] Under his leadership, the institute has emphasized innovation in neurosurgical techniques and expanded global outreach, including the establishment of the Barrow Innovation Center to advance device and technology development for neurological care.[19] Lawton received the Cushing Award for Technical Excellence and Innovation in Neurosurgery from the American Association of Neurological Surgeons in 2023, recognizing his contributions to complex aneurysm and arteriovenous malformation treatments.[19] Historically, influential leaders have shaped the institute's direction. John Raymond Green, MD, served as the founding medical director and first chair of the Department of Neurosurgery from the institute's establishment in 1962 until his retirement in 1986.[3] Green, Arizona's first neurosurgeon, co-founded the Barrow Neurological Institute and focused on early advancements in neurological care and research infrastructure.[20] He was succeeded by Robert F. Spetzler, MD, who directed the institute from 1986 to 2017 as President and CEO.[10] Spetzler, a pioneer in vascular neurosurgery, performed over 5,000 aneurysm clipping procedures, including his 5,000th in 2007 and final one, his 6,493rd, in 2017; he also developed innovative techniques such as the cardiac standstill procedure for giant aneurysms.[21] His tenure transformed Barrow into a global leader in neurosciences, with over 600 publications and contributions to treatments for arteriovenous malformations and cavernous malformations.[22] Barrow Neurological Institute operates under the oversight of the Dignity Health executive team at St. Joseph's Hospital and Medical Center, ensuring alignment with broader strategic visions for integrated neurological research, patient care, and education.[23] This structure supports the institute's focus on multidisciplinary leadership to advance clinical and scientific priorities.[1]Structure and Affiliations
Barrow Neurological Institute (BNI) operates as a division of Dignity Health, integrated within St. Joseph's Hospital and Medical Center in Phoenix, Arizona, where it functions as the primary neurological care, research, and education hub.[1][24] This structure enables seamless coordination across clinical services, with BNI's administrative framework emphasizing multidisciplinary collaboration among its core divisions, including neurology, neurosurgery, neuroradiology, translational neuroscience (encompassing neurobiology research), and physical medicine and neuro-rehabilitation.[25][26] These divisions support the institute's tripartite mission by aligning patient care with cutting-edge research and professional training.[1] Under this umbrella, BNI oversees more than 15 centers of excellence dedicated to specialized neurological conditions, such as the Ivy Brain Tumor Center, Muhammad Ali Parkinson Center, and the Gregory W. Fulton ALS and Neuromuscular Disease Center, which facilitate targeted innovation and treatment protocols.[1] Key affiliations enhance BNI's reach and expertise; it maintains a primary partnership with St. Joseph's Hospital and Medical Center for adult care, while collaborating with Phoenix Children's Hospital to deliver the second-largest pediatric neuroscience program in the U.S. by patient volume.[1][27] Additionally, academic ties with institutions like the University of Arizona College of Medicine–Phoenix support residency and fellowship programs in neurology, neurosurgery, and related fields, fostering integrated education and training.[28][29] Governance at BNI is provided through oversight by the Dignity Health system, with the non-profit Barrow Neurological Foundation's Board of Trustees playing a pivotal role in strategic direction, particularly in funding and integrating the clinical, research, and education arms to advance neuroscience outcomes.[24][30] This board, comprising 43 members including clinical leaders and philanthropists, ensures accountability via committees on grants, audits, and governance, while prioritizing the synergy between patient services, scientific inquiry, and professional development.[30]Clinical Services
Departments and Specialties
Barrow Neurological Institute organizes its clinical services across several core departments specializing in neurological and neurosurgical care, emphasizing a multidisciplinary approach to treat complex conditions such as trauma, tumors, and degenerative diseases. These departments collaborate through integrated teams that include neurologists, neurosurgeons, neuroradiologists, rehabilitation specialists, and support staff to provide comprehensive patient management. The institute performs over 6,000 neurosurgical procedures annually, incorporating advanced techniques like minimally invasive and endovascular methods to enhance outcomes.[1] The Department of Neurology leads in diagnosing and treating a wide range of neurological disorders, including epilepsy, movement disorders such as Parkinson's disease, Alzheimer's disease, balance disorders, brain injury, and headache medicine. It houses specialized divisions for neuro-oncology, stroke, and neuro-endocrinology, delivering both inpatient and outpatient care supported by renowned education and training programs. Neurologists employ advanced diagnostic tools and therapies tailored to individual patient needs, focusing on conditions affecting the brain, spinal cord, and peripheral nerves.[31][32] The Department of Neurosurgery excels in surgical interventions for neurological conditions, with subspecialties in cerebrovascular and skull base surgery, functional and stereotactic neurosurgery, pediatric neurosurgery, spine surgery, tumor surgery, and endovascular neurosurgery. Surgeons utilize minimally invasive techniques, such as endoscopic procedures and deep brain stimulation for movement disorders, to address aneurysms, spinal deformities, and brain tumors while minimizing recovery time. This department integrates Phase 0 clinical trials for innovative treatments, particularly in neuro-oncology cases.[33][34][35] The Department of Neuroradiology provides essential imaging interpretation and diagnostic support, specializing in X-rays, MRIs, CT scans, and advanced modalities for the brain, spine, spinal cord, face, neck, and blood vessels. Neuroradiologists collaborate closely with clinical teams to guide treatment planning for conditions like strokes, tumors, and vascular malformations, contributing to precise preoperative and postoperative assessments.[36][37] The Department of Physical Medicine & Neuro-Rehabilitation offers a full spectrum of inpatient and outpatient services to restore function after neurological injuries or illnesses, including neuropsychological testing, respiratory therapy, orthotics, and family education. It pioneers the use of neuro-robotics and therapeutic technologies, with over 160 devices deployed across care settings to aid recovery from strokes, traumatic brain injuries, and spinal cord conditions. Programs like the Center for Transitional Neuro-Rehabilitation emphasize multidisciplinary teams for holistic rehabilitation.[38][39][40] Key specialties include comprehensive stroke care through the Petznick Stroke Center, certified as a Comprehensive Stroke Center by The Joint Commission, which provides acute intervention, rehabilitation, and prevention strategies for ischemic and hemorrhagic strokes. The Neuro-Oncology Program, supported by the Ivy Brain Tumor Center, focuses on brain and spine tumors like gliomas and metastases, offering multidisciplinary treatment including surgery, radiation, and integration of Phase 0 trials to accelerate personalized therapies. Pediatric neurology services are delivered via a close affiliation with Phoenix Children's Hospital, forming one of the largest pediatric neuroscience programs in the U.S., treating conditions such as epilepsy, neurogenetic disorders, and congenital malformations in children.[41][42][43][44]Patient Care Statistics
Barrow Neurological Institute treats more than 73,000 patients annually through a combination of outpatient and inpatient services, reflecting its role as a major hub for neurological care.[45] The institute performs over 6,000 neurosurgeries each year, focusing on complex procedures involving the brain, spine, head, and neck.[1] In terms of patient outcomes, Barrow's Petznick Stroke Center holds certification as a Comprehensive Stroke Center from The Joint Commission, the highest level of accreditation for stroke care, ensuring standardized protocols for timely intervention and improved recovery rates.[42] For aneurysm treatments, the institute's Barrow Ruptured Aneurysm Trial demonstrated high success rates, with 96% complete obliteration achieved through surgical clipping at six-year follow-up, outperforming coiling in long-term efficacy for select cases.[46] In tumor management, Barrow's Brain & Spine Tumor Program reports favorable outcomes in pituitary tumor resections, having treated over 2,500 patients since 2007 using minimally invasive techniques that enhance recovery and quality of life.[47] The institute serves a diverse patient population, drawing from regional, national, and international sources due to its expertise in handling complex neurological cases that often require multidisciplinary approaches.[48] This global reach is supported by dedicated programs for international patients, emphasizing personalized care for those traveling for specialized treatment.[1] As of 2024, Barrow serves as a clinical trial site for Neuralink's PRIME Study, implanting brain-computer interfaces to restore autonomy for adults with quadriplegia due to spinal cord injury or amyotrophic lateral sclerosis (ALS).[49]Research and Innovation
Major Research Areas
Barrow Neurological Institute conducts extensive research across several core areas of neuroscience, positioning it as one of the world's largest dedicated programs in neurological disease investigation.[50] Key foci include neuro-oncology, where scientists lead efforts to develop personalized treatments for brain tumors such as glioblastoma through innovative Phase 0 clinical trials. In vascular neurosurgery, research targets cerebrovascular disorders like aneurysms and arteriovenous malformations (AVMs), aiming to improve surgical outcomes and prevention strategies. The institute also advances studies in neurodegenerative diseases, including Parkinson's disease, Alzheimer's disease, and amyotrophic lateral sclerosis (ALS), with investigations into disease mechanisms, risk factors, and therapeutic interventions such as deep brain stimulation.[26] Additional priorities encompass epilepsy, exploring seizure management and surgical therapies, and neurogenetics, which examines genetic influences on neurological conditions and health outcomes.[31][51] Methodologies employed in these areas integrate clinical trials, advanced neuroimaging, and genetic analyses to drive translational progress. Barrow maintains over 300 active clinical trials, enrolling more than 1,200 patients annually as of 2024, facilitating rapid testing of novel therapies.[52] Neuroimaging research utilizes cutting-edge techniques, including functional MRI and PET scans, to map brain activity and structural changes in real-time during procedures. Genetic studies, often leveraging large-scale genomic data, identify hereditary factors in conditions like cerebral cavernous malformations.[1] Increasingly, artificial intelligence (AI) is incorporated to enhance imaging analysis, predict disease progression, and optimize treatment personalization across these domains.[51] Collaborations amplify Barrow's research impact through partnerships with specialized centers, academic institutions, and international networks. The Ivy Brain Tumor Center, housed at Barrow, coordinates the world's largest Phase 0 trials program, involving over 100 sites across multiple countries, such as the Gliofocus trial with 145+ sites in 11 countries as of 2025 to accelerate drug development for brain tumors.[53] Ties with universities and global consortia support multidisciplinary projects, such as neuroepidemiology initiatives that analyze population-level data for neurodegenerative insights. These efforts are bolstered by substantial infrastructure, including the Robert F. Spetzler Neuroscience Tower—a 430,300-square-foot facility with dedicated research labs and 11 neurosurgical operating rooms—and the Barrow Neuroplex, which accommodates neuro-oncology and stroke divisions.[1] In fiscal year 2024, Barrow received over $57 million in federal research funding, with the program publishing 155 peer-reviewed articles (per the 2024 Impact Report), underscoring its scale and productivity.[50][54] In 2025, the Ivy Brain Tumor Center advanced the Gliofocus Phase 3 trial for glioblastoma, enrolling patients across 145+ sites in 11 countries. Additionally, Barrow received a $3 million DoD grant for studying neuropsychiatric symptoms in Parkinson's disease.[55]Notable Breakthroughs and Initiatives
In the 1980s, Barrow Neurological Institute researchers, led by Dr. Robert F. Spetzler and Dr. Joseph M. Zabramski, refined the cardiac standstill procedure, utilizing profound hypothermia and circulatory arrest to safely treat complex giant aneurysms in the posterior circulation that were previously considered inoperable.[56] This advancement, first detailed in a 1988 publication, significantly improved surgical outcomes for high-risk cerebrovascular cases by minimizing blood flow and allowing precise aneurysm clipping.[3] In 1995, Barrow scientists, including Dr. Joseph M. Zabramski, mapped the gene responsible for the inherited form of cerebral cavernous malformations (CCMs) to chromosome 7q. The KRIT1 (CCM1) gene was subsequently identified in 1999. This breakthrough enabled genetic screening and advanced understanding of familial CCM pathogenesis, paving the way for targeted diagnostics.[3][57] The Ivy Brain Tumor Center at Barrow has established the world's largest Phase 0 clinical trials program for brain tumors, pioneering adaptive, window-of-opportunity studies that rapidly assess drug penetration and efficacy in glioblastoma patients before traditional Phase I testing.[35] Launched in 2018, this initiative has enrolled hundreds of participants, accelerating the development of precision therapies by providing real-time pharmacodynamic data to refine treatment strategies.[58] Barrow has pioneered neurorehabilitation techniques incorporating neuro-robotics, such as exoskeletons and robotic gait trainers that leverage neuroplasticity to restore motor function in patients with stroke, spinal cord injuries, and other neurological impairments.[59] These technologies, integrated into the Barrow Neuro-Rehabilitation Center's programs, adapt to individual progress and have demonstrated improved functional independence in clinical settings.[60] Advancements in gene therapy at Barrow include the initiation of preclinical studies for Parkinson's disease, where adeno-associated virus (AAV) vectors deliver therapeutic genes to modulate alpha-synuclein pathology and restore dopaminergic function.[61] A 2024 study from Barrow's Manfredsson Laboratory reported that this approach reversed motor deficits in preclinical models, paving the way for future human clinical trials.[62] In the 2020s, Barrow has integrated precision medicine and artificial intelligence (AI) to enhance neurosurgery outcomes, particularly through AI-driven predictive models for tumor resection and postoperative recovery in brain tumor cases at the Ivy Center.[63] These tools, including machine learning algorithms for real-time imaging analysis, have improved surgical precision and patient stratification, as evidenced by ongoing global neurosurgery initiatives led by Barrow faculty.[58]Education and Training
Residency and Fellowship Programs
Barrow Neurological Institute offers comprehensive residency programs in neurosurgery and neurology, designed to train physicians in advanced clinical care, surgical techniques, and research within the field of neuroscience. The neurosurgery residency, accredited by the American Board of Neurological Surgery since 1961, is a seven-year program that accommodates 28 residents and emphasizes graduated autonomy through hands-on training in high-volume procedures.[3][64][2] This program has been ranked as the number one neurosurgery residency in the United States by Doximity's Residency Navigator for the 2025-2026 cycle, marking the third consecutive year for this distinction, based on resident and alumni satisfaction surveys, physician nominations, and objective data.[65][66] Residents participate in over 7,000 neurosurgical procedures annually across 11 dedicated operating rooms and two neuro-endovascular suites, covering subspecialties such as brain and spine surgery. The neurology residency provides two tracks—adult categorical and child neurology—focusing on clinical training across 13 subspecialties, including neuro-ophthalmology, epileptology, and movement disorders, while integrating research opportunities in areas like neuroimaging and translational neuroscience.[65][66][67] Barrow's fellowship programs extend specialized training in neurosurgery and neurology, attracting trainees for advanced subspecialty expertise. Key neurosurgery fellowships include vascular neurosurgery, pediatric neurosurgery, and neuro-oncology, while neurology offerings encompass epilepsy, neuro-oncology, and behavioral neurology and neuropsychiatry. These programs support fellows and postdoctoral trainees annually across neuroscience disciplines, providing focused clinical management, research, and multidisciplinary collaboration in one of the nation's busiest neurological centers.[68][69][70] The curriculum for both residencies and fellowships incorporates hands-on surgical and clinical experiences, dedicated research rotations, and multidisciplinary simulations to foster proficiency in complex neurological cases. Residents and fellows benefit from mentorship by leading faculty, access to state-of-the-art facilities, and opportunities for peer-reviewed publications, with neurology residents achieving a 95% board passing rate over the past three years. Funding through the Barrow Neurological Foundation enhances research and training initiatives.[2][67][67]Educational Endowments and Achievements
In 2021, Bill and Carolyn Franke established a $21 million endowment to create the Franke Global Neuroscience Education Center at Barrow Neurological Institute, funding scholarships, advanced training programs, and facility enhancements to support neuroscience education on a national and international scale.[71][72] Barrow Neurological Institute boasts the highest number of Certified Neuroscience Registered Nurses (CNRNs) worldwide, with 124 nurses holding this credential among its team of over 400 neuroscience nurses, underscoring its leadership in specialized nursing education.[73][1] The institute has also played a pivotal role in the national history of neuroscience nursing, with its nurses holding prominent leadership positions in professional organizations and contributing to the development of standards for the field since the 1960s.[74] In 2024, Barrow launched Barrow Global Neurology, enabling residents to deliver care and training internationally, such as in South Africa.[67] Through its educational initiatives, Barrow has trained thousands of medical professionals, including physicians, nurses, and researchers, contributing to global standards in neurological education via international outreach and collaborative programs.[1][75] Key efforts include weekly Neurology and Neurosurgery Grand Rounds, which provide continuing medical education to hundreds annually; the Barrow Quarterly publication series, disseminating advancements in neuroscience; and community outreach programs that sponsor support groups and seminars reaching thousands of individuals each year.[76][77]Rankings and Recognition
National and International Rankings
Barrow Neurological Institute has consistently earned high marks in national and international evaluations of neurological care and research, reflecting its expertise in neurology, neurosurgery, and related fields. In the U.S. News & World Report's 2025-2026 Best Hospitals rankings, the institute is rated #2 in Arizona for neurology and neurosurgery, placing #49 nationally in the same category based on factors including patient outcomes, volume of complex cases, and nurse staffing.[78] Additionally, Barrow's neuro-rehabilitation program is recognized as one of the top performers nationally, advancing two spots to #32 overall in rehabilitation for 2025-2026 but excelling specifically in neurological recovery metrics.[4] Internationally, Newsweek's 2026 World's Best Specialized Hospitals rankings position Barrow at #15 globally and #10 in the United States for neurosurgery, evaluated through peer recommendations from medical professionals, accreditation standards, and patient satisfaction data across 125 institutions.[45] In the companion America's Best Hospitals for Neurological Care 2025 list, Barrow ranks #21 nationally, highlighting its strengths in subspecialties like epilepsy, Parkinson's disease, and brain tumor management.[79] The institute's educational programs also receive top honors, with Doximity's 2025-2026 Residency Navigator ranking Barrow's neurosurgery residency #1 in the nation for the third consecutive year, determined by resident and alumni satisfaction surveys, peer nominations, and program reputation among board-certified physicians.[65] In research metrics, Scimago Institutions Rankings places Barrow Neurological Institute at 3506th worldwide overall in 2025, with a 51st percentile in the health sector and 2651st in medicine, indicating solid contributions to neuroscience research output through publication volume and citation impact in areas like biochemistry, genetics, and molecular biology.[80]| Ranking Source | Category | National Rank | Global Rank | Year |
|---|---|---|---|---|
| U.S. News & World Report | Neurology & Neurosurgery | #49 (AZ: #2) | N/A | 2025-2026 |
| U.S. News & World Report | Neuro-Rehabilitation | Top Performer (#32 overall rehab) | N/A | 2025-2026 |
| Newsweek | Neurosurgery | #10 | #15 | 2026 |
| Newsweek | Neurological Care | #21 | N/A | 2025 |
| Doximity | Neurosurgery Residency | #1 | N/A | 2025-2026 |
| Scimago Institutions | Medicine (Neuroscience-related) | N/A | 2651st | 2025 |