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Wilson Greatbatch

Wilson Greatbatch (September 6, 1919 – September 27, 2011) was an American electrical engineer and prolific inventor renowned for developing the first successful implantable cardiac pacemaker in 1958, a groundbreaking medical device that revolutionized treatment for heart rhythm disorders and has saved millions of lives worldwide.^[1]^[2] Born in Buffalo, New York, Greatbatch served in the U.S. Navy from 1936 to 1945, including during World War II, where he worked as an aviation chief radioman before pursuing higher education.^[1] He earned a Bachelor of Electrical Engineering from Cornell University in 1950 and a master's degree from the State University of New York at Buffalo in 1957, later becoming an adjunct professor of engineering at the university.^[1]^[3] Greatbatch's pivotal invention occurred serendipitously in 1958 while he was building an oscillator to record heart sounds at the University of Buffalo; he accidentally installed a 1 MΩ resistor instead of a 10 KΩ one, resulting in a circuit that produced a steady 1.8-millisecond pulse every second, mimicking a heartbeat.^[2]^[4] Collaborating with surgeons Dr. William Chardack and Dr. Andrew Gage at the Buffalo Veterans Affairs Hospital, he refined the device over two years, including through animal testing beginning with the first successful implant in a dog on May 7, 1958.^[2]^[4] The inaugural human implantation took place in 1960 on a 77-year-old patient, who survived for two years, followed by reports of 15 successful human implants by 1961; Greatbatch secured U.S. Patent No. 3,057,356 for the implantable pacemaker.^[2]^[1]^[3] In the 1970s, Greatbatch advanced pacemaker technology further by developing the lithium-iodide battery for pacemaker use, which extended device longevity to over 10 years and became a standard in the field.^[2]^[5] In 1970, he founded Greatbatch, Inc. (later acquired and renamed Integer Holdings Corporation), initially to produce these long-life primary batteries for pacemakers and other medical devices.^[1]^[3] Throughout his career, he amassed over 325 patents, spanning medical electronics, environmental innovations like a solar-powered canoe, and even research into AIDS treatments.^[3] Greatbatch received numerous accolades for his contributions, including induction into the National Inventors Hall of Fame in 1986, the National Medal of Technology in 1995, and the Lemelson-MIT Lifetime Achievement Award; in 1983, the National Society of Professional Engineers named his pacemaker one of the top two engineering achievements of the previous half-century.^[1]^[3] His work not only transformed cardiac care—leading to tens of millions of pacemaker implants globally since 1960—but also exemplified interdisciplinary innovation at the intersection of engineering and medicine.^[2]^[4]^[6]

Early Life and Education

Childhood and Family Background

Wilson Greatbatch was born on September 6, 1919, in Buffalo, New York, to a working-class family.^[7] His father, Warren Greatbatch, was an English immigrant who had worked as a green grocer in England before becoming a carpenter and building contractor in the United States after arriving around 1900.^[8]^[9] Greatbatch's mother, Charlotte Margaret Recktenwalt Greatbatch, was American and met his father through a local singing society in Buffalo, where both participated; they married around the time of World War I.^[7]^[10] The family dynamics played a key role in fostering Greatbatch's early curiosity about mechanics and problem-solving. His father's trade as a carpenter exposed him to hands-on work with tools and materials from a young age, while his mother's encouragement emphasized resourcefulness, often advising that "there is always a way" to address challenges.^[7] As the only child in the household—though he had a half-brother from his father's previous marriage who had died by then—Greatbatch grew up on Buffalo's south side in the West Seneca suburb, where the working-class environment instilled a practical, inventive mindset.^[7]^[8] Greatbatch attended West Seneca High School, where his interests in electronics began to emerge prominently.^[7] As a youngster, he developed a passion for radio technology, tinkering with components and building devices; by around 1936, as a member of the Sea Scouts, he constructed a radio transmitter that aided in hurricane relief efforts, earning him a Red Cross citation for his contributions.^[7] Greatbatch's early life unfolded amid the Great Depression, which began when he was about 10 years old, amplifying the family's modest circumstances and promoting self-reliance through resourceful fixing and building around the home.^[9] These formative experiences in Buffalo's industrial setting laid the groundwork for his lifelong pursuit of engineering innovation.^[7]

Military Service and Higher Education

During World War II, Wilson Greatbatch served in the U.S. Navy, initially joining the Naval Reserve in 1938 before entering active duty in 1940 as a radioman third class.^[7] He advanced to the rank of aviation chief radioman, receiving an honorable discharge in 1945 after contributing to both Atlantic and Pacific theater operations.^[1] His early interest in radio, sparked by family tinkering with electronics, provided a strong foundation for his technical aptitude in the service.^[11] Greatbatch gained extensive hands-on experience with radar and electronics, including roles in aircraft maintenance and operation. He trained at a Royal Air Force radar school in Canada and later instructed at Navy radar and radio schools, such as setting up a program at Annapolis and teaching aviation radar at Corpus Christi, Texas.^[7] During patrols, he flew PBY aircraft on 13-hour missions along the Texas coastline to detect German submarines using early radar systems, and he served in a dive-bombing squadron aboard the USS Monterey aircraft carrier, where he maintained and operated radio and radar equipment essential for navigation and combat.^[7] These experiences honed his skills in troubleshooting complex electronic systems under demanding conditions, fostering the discipline that would later define his engineering innovations.^[12] Following the war, Greatbatch utilized the GI Bill to pursue higher education, enrolling at Cornell University to study electrical engineering. He earned a Bachelor of Electrical Engineering (B.E.E.) degree in 1950, focusing on communications with an emphasis on information theory.^[13] He then advanced his studies at the University at Buffalo (now SUNY Buffalo), completing a Master of Science in Electrical Engineering in 1957.^[14] This graduate work deepened his expertise in research-oriented electrical systems, preparing him for academic and professional roles in engineering.^[15]

Professional Career Beginnings

Early Engineering Work

After graduating from Cornell University with a Bachelor of Electrical Engineering in 1950, Greatbatch began his professional career in electrical engineering roles that emphasized practical applications in instrumentation and signal processing. He initially worked at Cornell's Psychology Department animal behavior farm, where he designed and built amplifiers to monitor heart rates and blood pressure in sheep and goats, gaining early experience with biological signal recording. This role, starting around 1951, involved attaching instruments to over 100 animals and laid foundational skills in audio electronics for physiological data.^[11] He also contributed to Cornell's radio astronomy efforts by constructing receivers for the Arecibo radio telescope in Puerto Rico, honing his expertise in high-fidelity amplification systems.^[11] In 1952, while pursuing a master's degree at the University of Buffalo, Greatbatch joined the university as an assistant professor in the electrical engineering department, where he taught and conducted research at the Chronic Disease Research Institute. By 1957, after completing his M.S., he transitioned to industry as manager of the electronics division at Taber Instrument Corporation, a local Buffalo firm specializing in precision instruments. At Taber, he oversaw development of electronic components but encountered resistance when proposing biomedical projects, as the company prioritized commercial applications over experimental medical work.^[13] These positions in Buffalo-area institutions and firms built his proficiency in transistor-based circuits, drawing on his Cornell education to bridge general electronics with emerging physiological monitoring needs.^[9] During the mid-1950s, Greatbatch pursued independent projects that foreshadowed his biomedical interests, including the design of compact audio recording devices to capture biological sounds such as heart rhythms. One such effort involved building an oscillator circuit using expensive silicon transistors—costing $90 each at the time—for recording rapid heartbeats in laboratory settings, which he developed in his spare time due to limited institutional resources. These solo endeavors, often conducted in makeshift workshops, highlighted his resourcefulness but also revealed funding challenges, as he relied on personal savings without dedicated grants or employer backing.^[7]^[11] Around 1956–1957, Greatbatch's independent work led to preliminary collaborations with medical professionals, beginning with informal discussions through the Professional Group on Medical Electronics and connections at the University of Buffalo. He met Dr. William Chardack, chief of surgery at the Buffalo Veterans Administration Hospital, during this period, initiating joint explorations into electronic aids for cardiac monitoring amid skepticism from the medical community about implantable devices. Transitioning from general electronics to medical applications proved difficult, with early prototypes failing due to issues like inadequate sealing against body fluids and a lack of suitable power sources, compounded by the absence of venture funding in the nascent field. These hurdles forced Greatbatch to self-finance his experiments, investing about $2,000 from family savings while balancing full-time employment.^[7]^[13]

Research Collaborations in Buffalo

In 1958, Wilson Greatbatch, an assistant professor of electrical engineering at the University at Buffalo, formed a pivotal partnership with Dr. William Chardack, chief of surgery at the Buffalo Veterans Administration Hospital (now the Buffalo VA Medical Center).^[6]^[7] This collaboration arose from Greatbatch's involvement in the local Professional Group on Medical Electronics and stemmed from his ongoing work on biomedical instrumentation. Together, they initiated joint experiments focused on heart rhythm recording devices, aiming to develop tools for monitoring and potentially regulating cardiac activity in clinical settings.^[7]^[16] During these experiments, Greatbatch experienced a serendipitous breakthrough when he inadvertently installed a 1 MΩ resistor instead of a 10 kΩ resistor in an oscillator circuit designed for recording tachycardias. The resulting device produced electrical pulses of 1.8 milliseconds followed by a 1-second interval, closely mimicking the natural rhythm of a healthy heartbeat and suggesting potential for cardiac stimulation.^[16] This accidental discovery shifted their focus toward prototyping an implantable pulse generator, with Chardack providing surgical expertise for electrode design and implantation feasibility.^[13]^[7] Later in 1958, the team advanced to testing prototypes on dogs at the VA Hospital's animal laboratory, where they implanted electrodes connected to the external pulse generator to evaluate pacing efficacy. Initial trials lasted about four hours but revealed challenges with device sealing against bodily fluids, which they addressed using epoxy encapsulation to improve reliability.^[6]^[7] These tests also highlighted the need to miniaturize the device and optimize power sources, as early mercury-zinc batteries limited longevity and the overall size was too bulky for practical human implantation. Concurrently, Greatbatch engaged in preliminary manufacturing discussions with Medtronic, Inc., starting in late 1959, culminating in a licensing agreement in 1960 to produce units for human clinical trials.^[7]^[17]

Major Inventions in Biomedical Engineering

Invention of the Implantable Pacemaker

In 1958, while working as an electrical engineering instructor at the University of Buffalo, Wilson Greatbatch accidentally invented the core circuit for the implantable pacemaker during an attempt to develop a device for recording fast heart rhythms. Reaching into a parts box, he mistakenly installed a resistor with 100 times the intended resistance—1 megohm instead of 10 kilohms—into a blocking-oscillator circuit powered by transistors. This error caused the circuit to produce self-interrupting pulses at a rate of 1.8 hertz, mimicking the rhythmic "lub-dub" of a natural heartbeat, which Greatbatch immediately recognized as suitable for cardiac stimulation.^[11]^[16] Greatbatch refined the design in collaboration with surgeon William Chardack at the Buffalo Veterans Administration Hospital, transitioning from external pacing prototypes to a fully implantable system. The resulting Chardack-Greatbatch pacemaker featured a compact pulse generator using two transistors in a transformer-coupled blocking-oscillator configuration to deliver 100-microsecond pulses at 72 beats per minute. It was powered by a mercury-zinc battery from Mallory, expected to last approximately two years, and encapsulated in epoxy resin for biocompatibility and protection against bodily fluids, with the entire unit measuring about 5.5 by 4.5 by 1.5 centimeters and weighing 70 grams. Electrodes were sutured directly to the heart muscle via thoracotomy, enabling asynchronous ventricular pacing to treat bradycardia and arrhythmias.^[16]^[18]^[6] After successful animal testing in dogs starting in May 1958, the device achieved its first human implantation on June 6, 1960, in a 77-year-old patient with complete heart block at Millard Fillmore Hospital in Buffalo, New York, performed by Chardack with assistance from surgeon Andrew Gage, in collaboration with the Buffalo VA Hospital. The patient survived for 18 months post-implant, demonstrating reliable function. That year, Chardack's team implanted pacemakers in a total of 10 patients, primarily elderly individuals with severe arrhythmias, marking the shift from bulky external units to practical internal therapy. Medtronic, Inc., licensed the technology in late 1960 and began commercial production of the Model 5800, facilitating wider clinical adoption with dozens of implants by year's end.^[19]^[11]^[6]^[8] Greatbatch filed for a patent on July 22, 1960, which was granted as U.S. Patent 3,057,356 on October 9, 1962, covering the implantable cardiac pacemaker's circuit and assembly. Early clinical data showed the device restored effective heart rates, with patient survival post-implant often comparable to age-matched individuals without pacemakers, as it alleviated symptoms of heart block and prevented sudden cardiac arrest. By 1961, refinements included improved lead insulation and surgical techniques, solidifying the pacemaker's role in treating a range of arrhythmias and paving the way for tens of millions of implants worldwide since its introduction (as of 2025).^[18]^[20]^[21]

Development of the Lithium-Iodide Battery

In the late 1960s, early implantable pacemakers relied on mercury-zinc batteries that typically lasted only 2 to 3 years, often leading to corrosion, gas generation, and unpredictable failure, which necessitated frequent surgical replacements and increased patient risk.^[7]^[22] This limitation motivated engineers to seek a more reliable, longer-lasting power source that could enable a single lifetime implantation for most patients.^[7] Greatbatch addressed this challenge through collaboration with battery experts at Catalyst Research Corporation (CRC) in Baltimore, Maryland, leading to the invention of the lithium-iodine battery in 1971.^[7]^[23] The design featured a lithium anode, an iodine cathode complexed with polyvinylpyridine to form a solid cathode, and a solid lithium iodide electrolyte, creating a fully solid-state system that avoided liquid components and enabled hermetic sealing.^[24]^[25] The electrochemical reaction powering the cell is simplified as:

$2\text{Li} + \text{I}_2 \rightarrow 2\text{LiI}

This process releases energy with a nominal open-circuit voltage of approximately 2.8 V, free of gassing or corrosion products.^[26]^[27] The core technology was patented by CRC as U.S. Patent 4,049,890 in 1977, with inventors Ralph T. Mead, Frank W. Rudolph, and Norbert W. Frenz, covering the lithium-iodine cell structure and manufacturing method.^[26] Greatbatch's company licensed this patent and developed improvements, extending battery life to over 10 years in typical pacemaker applications by minimizing internal impedance and enhancing energy density.^[7]^[28] The lithium-iodine battery was first integrated into pacemakers by Cardiac Pacemakers, Inc. (CPI) in 1972, marking the inaugural clinical implantation of such a device and rapidly becoming the standard power source due to its reliability and longevity.^[29]^[30] As of 2025, it has powered tens of millions of implantable cardiac devices worldwide, with failure rates below 0.1% annually, and approximately 1.4 million pacemakers are implanted annually worldwide, the vast majority using this battery technology.^[31]^[25]^[32]

Business Ventures and Later Innovations

Founding of Greatbatch Inc.

Wilson Greatbatch founded Wilson Greatbatch Ltd. in 1970 in Clarence, New York, to develop and manufacture lithium-iodide batteries for implantable medical devices, leveraging his earlier invention of the battery technology as the company's core product.^[33] The firm, later restructured and renamed Greatbatch Inc., began operations with a focus on producing reliable, long-lasting cells suitable for pacemakers, addressing the need for power sources that could operate safely within the body for extended periods.^[13] Early production efforts encountered technical hurdles in ensuring battery reliability and hermetic sealing to prevent failures in vivo, requiring iterative design improvements to meet the stringent requirements for implantable applications.^[33] Scaling from laboratory prototypes to commercial manufacturing involved overcoming facility constraints, as the company doubled its business within five years and outgrew its initial Clarence headquarters, prompting expansions to support FDA-compliant production processes for medical-grade components.^[33] By the mid-1970s, Greatbatch had achieved the first commercial production of lithium-iodine batteries, enabling consistent supply to device makers.^[16] Over the subsequent decades, Greatbatch expanded its product line to include batteries for implantable cardioverter defibrillators, neurostimulators, and other active implants, becoming the leading independent supplier in the sector.^[33] The company's growth bolstered the local economy by employing graduates from the University at Buffalo, funding faculty research in electrochemistry and biomedical engineering, and providing mentoring programs that nurtured the regional biomedical innovation ecosystem.^[34] In 2016, Greatbatch merged with Lake Region Medical and rebranded as Integer Holdings Corporation, integrating its battery expertise into a broader medical device manufacturing platform.^[35] Greatbatch's revenue primarily derived from long-term supply agreements with major medical device firms, including Medtronic, Guidant, and St. Jude Medical, which together represented about 70% of sales in the mid-2000s through direct component sales rather than broad licensing.^[36] This model allowed the company to achieve annual revenues exceeding $200 million by 2004 while maintaining focus on high-reliability production for life-sustaining devices.^[33]

Additional Patents and Biomedical Contributions

Throughout his career, Wilson Greatbatch amassed over 325 patents, with a significant portion—approximately 150—dedicated to biomedical engineering advancements after the 1970s, reflecting his shift toward enhancing implantable medical devices.^[8]^[37] These innovations emphasized reliability, miniaturization, and biocompatibility, enabling the development of life-saving technologies that have collectively preserved millions of lives by reducing the need for frequent surgical interventions.^[1]^[7] In the 1970s and 1980s, Greatbatch contributed key components to implantable defibrillators, including high-current lithium batteries designed to deliver pulses of 5-6 amperes—far exceeding the microampere levels required for earlier devices like pacemakers.^[7] These batteries addressed the unique power demands of defibrillators, incorporating novel chemistries and manufacturing techniques to ensure safe, efficient operation within the body.^[7] He also patented a dual battery system for implantable defibrillators (US5235979B1, filed 1991), which improved device redundancy and longevity by combining primary and hybrid power sources, thereby enhancing patient safety during high-energy discharges.^[38] Additionally, his work extended to advanced capacitors for defibrillators, such as a lighter, memory-free tenon design introduced in the 1990s, which supported smaller implants without compromising performance.^[7]^[39] Greatbatch's research in the 1980s included drug delivery systems targeted at AIDS treatment, where he collaborated on electrochemical methods to inhibit HIV replication by blocking viral enzyme sites.^[15] This effort, spanning over 20 years, yielded at least three patents co-developed with scientist John Sanford, focusing on compounds and processes to confer resistance to retroviral infection, including applications for related feline viruses as models for HIV.^[15]^[40] His contributions here leveraged electrochemical principles to create tools for precise, controlled release of therapeutic agents, advancing early antiviral research.^[7] Addressing corrosion challenges in long-term implants, Greatbatch developed corrosion-resistant electrodes using biocompatible materials such as titanium, platinum, and silver, which minimized tissue irritation and extended device lifespan.^[7] A notable example is his composite electrode patent for lithium batteries (US5582935A, filed 1994), which integrated transition metal oxides with metallic current collectors to enhance electrochemical stability and reduce degradation in physiological environments.^[41] These advancements improved the overall durability of biomedical implants, particularly in high-moisture body conditions.^[42] In the 1980s and 1990s, Greatbatch pursued independent research on bio-compatible materials, refining electrode coatings and sealing techniques to prevent leakage and promote tissue integration in neural stimulators and other neural interfaces.^[7] His patents in this area, such as those for MRI-resistant implantable devices (US6795730, granted 2004), incorporated hybrid circuits and shielding to maintain functionality in electromagnetic fields while ensuring material safety for neural applications.^[37] This work facilitated the miniaturization of neural stimulators, enabling targeted therapies for neurological disorders with reduced risk of adverse reactions.^[43] Through Greatbatch Inc., established as a platform for commercializing his inventions, many of these patents transitioned from research to clinical use, underscoring his role in scaling biomedical innovations for widespread impact.^[3]

Awards, Philanthropy, and Legacy

Professional Awards and Honors

Wilson Greatbatch received numerous prestigious awards recognizing his pioneering contributions to biomedical engineering, particularly his invention of the implantable cardiac pacemaker and advancements in long-life batteries that extended its viability. In 1990, President George H.W. Bush presented him with the National Medal of Technology and Innovation, the highest honor for technological achievement in the United States, specifically for the invention, development, and clinical introduction of the implantable pacemaker and the lithium-iodine battery.^[44] His lifetime of inventive work was further honored in 1996 with the Lemelson-MIT Lifetime Achievement Award, a $100,000 award for lifetime achievement in invention, celebrating innovations that have profoundly impacted health and medicine.^[15] In 1986, Greatbatch was inducted into the National Inventors Hall of Fame, acknowledging the transformative effect of his pacemaker on cardiac care and the lives of millions worldwide.^[1] Among other distinctions, Greatbatch earned honorary doctoral degrees, including one from the University at Buffalo in 1984, reflecting his enduring ties to the institution where much of his early research occurred.^[13] He also received the Heart Rhythm Society's Pioneer Award in 1984, recognizing his foundational role in developing implantable devices that revolutionized electrophysiology and arrhythmia treatment.^[45] These accolades underscore how Greatbatch's key inventions, such as the pacemaker, served as the cornerstone for his professional recognition.

Philanthropic Activities and Enduring Impact

Throughout his life, Wilson Greatbatch channeled significant portions of his wealth into philanthropy, with donations totaling millions of dollars to various causes focused on education, cultural preservation, and community enhancement in Western New York. In 2000, he and his wife Eleanor contributed $15 million to Houghton College, establishing the Greatbatch School of Music and supporting graduate programs in music education, which became the institution's largest endowed fund at the time.^[46] This gift reflected Greatbatch's commitment to fostering artistic and scientific development, aligning with his own background as an alumnus and honorary degree recipient from the college in 1970.^[13] Greatbatch also extended substantial support to the University at Buffalo (UB), where he earned his master's degree in electrical engineering in 1957 and began his pioneering work on the implantable pacemaker. Through his company, Greatbatch Inc., he funded research initiatives, employed numerous UB graduates, and provided mentoring opportunities for students in biomedical engineering, embedding his legacy within the university's innovation ecosystem.^[34] In 2009, he and Eleanor made a landmark donation of approximately $10 million toward the restoration of the Darwin D. Martin House Complex in Buffalo, funding the construction of the Eleanor and Wilson Greatbatch Pavilion—a modern visitor center designed by architect Toshiko Mori to enhance public access to Frank Lloyd Wright's architectural masterpiece.^[47] In 1975, the couple founded the E. & W. G. Foundation, which became a subsidiary of the East Hill Foundation (established in 1986) in 2007—a family-led organization that has distributed grants to nonprofits across Western New York, emphasizing innovative projects to improve quality of life through education, health, and community services.^[48] This foundation originated from small grants tied to Greatbatch's family business and continues to honor their tradition of stewardship, with family members actively involved in grant selection.^[49] As of 2025, the East Hill Foundation, including its subsidiary E. & W. G. Foundation, continues to award grants to nonprofits in Western New York, with applications open for 2025 funding.^[50] Greatbatch's enduring impact extends beyond direct giving to the transformative influence of his inventions on global healthcare. The lithium-iodide battery he developed for pacemakers extended device longevity to over a decade, enabling about 80% of patients to receive just one implant in their lifetime rather than multiple replacements, thereby reducing surgical risks and healthcare costs worldwide.^[7] By making long-life implants more accessible and affordable, his work has saved millions of lives and inspired a generation of engineers to prioritize ethical, patient-centered innovation in medical technology.^[44] Embodying a modest personal ethos, Greatbatch maintained a simple lifestyle, reinvesting the bulk of his earnings from over 325 patents back into research and development rather than accumulating personal wealth, which further amplified his contributions to society.^[51] This approach not only sustained advancements in biomedical engineering but also modeled responsible stewardship for future inventors.^[52]

Personal Life and Death

Family and Personal Interests

Wilson Greatbatch married his childhood sweetheart, Eleanor Wright, on January 1, 1945.^[53]^[54] Eleanor played a key role in his early inventive work, serving as a research assistant who tested prototype devices for durability by tapping them with a pencil in their home.^[55]^[56] The couple raised five children—Warren Dee, John Leslie, Kenneth Alan, Anne Katherine, and Peter—in the Buffalo area, settling in the rural community of Akron, New York.^[57]^[54] Greatbatch's home served as an extension of his workshop, where family members were exposed to hands-on engineering projects, fostering an environment of curiosity and practical innovation.^[7] His children grew up amid this inventive atmosphere on their modest rural property, which reflected the family's emphasis on self-reliance and community.^[54] Greatbatch's early roots in Buffalo, where he was born to an English immigrant father and a local mother, shaped his values of hard work and ingenuity that permeated family life.^[13] In his personal pursuits, Greatbatch was deeply involved in his Presbyterian faith, teaching Sunday school and singing in the choir at Clarence Presbyterian Church.^[56] He enjoyed gardening as a hobby, tending to his rural home's grounds, and maintained an interest in sailing from his youth in the Boy Scouts and Sea Scouts.^[54]^[7] These activities balanced his professional endeavors, underscoring a lifestyle centered on faith, family, and simple pleasures alongside his commitment to community service.^[56]

Death and Memorial Tributes

Wilson Greatbatch passed away on September 27, 2011, at the age of 92 in an assisted-living facility in Clarence, New York.^[8]^[51] His death followed a period of intermittent health challenges, as noted by family members.^[58] A memorial service was held on October 10, 2011, at the First United Presbyterian Church of Clarence, reflecting Greatbatch's lifelong involvement with the Presbyterian community where he served as an elder and choir member.^[59] He was buried in Clarence Fillmore Cemetery in Clarence, New York.^[60] The service emphasized his modest personal style, with donations requested in lieu of flowers to support church missions and medical research initiatives.^[59] Following his death, Greatbatch received widespread posthumous recognition for his contributions to biomedical engineering. Obituaries in major publications, including The New York Times and The Los Angeles Times, highlighted his invention of the implantable pacemaker as a breakthrough that has extended the lives of millions worldwide.^[8]^[51] The National Academy of Engineering published a formal memorial tribute in its Memorial Tributes volume, praising his over 325 patents and role in pioneering long-lasting lithium-iodide batteries for medical devices.^[13] The Heart Rhythm Society acknowledged his foundational work on cardiac pacing technology, which transformed arrhythmia treatment.^[16] The National Inventors Hall of Fame, where Greatbatch was inducted in 1986, reiterated his legacy as a key figure in medical innovation.^[1] Greatbatch's company, Greatbatch Inc., which he founded in 1970, continued operations after his passing and was renamed Integer Holdings Corporation in 2016, maintaining its focus on advanced medical device components rooted in his inventions.^[35] As of 2025, Integer Holdings continues to reference Greatbatch's pioneering battery technology in its corporate history, underscoring his enduring impact on medtech without notable new posthumous developments.^[61]

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[32]
Greatbatch, Inc. Renamed Integer Holdings Corporation
Jun 27, 2016 · Company Ticker Becomes ITGR Following recent approval by shareholders, Greatbatch, Inc. will formally change its name to Integer Holdings ...Missing: expansion pacemakers defibrillators acquisition
[33]
[PDF] technology
In 2005, Guidant,. St. Jude Medical, and Medtronic collectively accounted for approximately 70% of our revenues. Our supply agreements might not be renewed.
[34]
Wilson Greatbatch Inventions, Patents and Patent Applications
Wilson Greatbatch has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that ...Missing: 4049890 | Show results with:4049890
[35]
US5235979B1 - Dual battery system for implantable defibrillator ...
Patents. Include patents. Include non-patent literature. Search within ... defibrillator ... Wilson Greatbatch Hybrid battery power source for implantable medical ...
[36]
Patents Assigned to Wilson Greatbatch Technologies, Inc.
Abstract: It is known that reforming implantable defibrillator capacitors at least partially restores and preserves their charging efficiency.
[37]
Researchers Team up with Famous Inventor to Combat HIV and ...
Wilson Greatbatch, award-winning inventor of the implantable cardiac pacemaker and holder of more than 220 patents, will be teaming up with University of ...Missing: AIDS | Show results with:AIDS
[38]
US5582935A - Composite electrode for a lithium battery
A composite positive electrode for utilization in a rechargeable lithium battery, having a metallic current collector and a transition metal oxide containing ...
[39]
Corrosion resistance of lithium/iodine batteries fabricated in an ...
Oct 1, 1981 · Title: Corrosion resistance of lithium/iodine batteries fabricated in an extremely dry environment. Early lithium/iodine pacemaker batteries ...
[40]
https://www.rochester.edu/news/printable.php?id=613
[41]
Wilson Greatbatch
In the early 1970s, he began manufacturing lithium batteries, which allow pacemakers to run for more than 10 years. As a lifelong inventor, Greatbatch held over ...Missing: biography | Show results with:biography
[42]
Heart Rhythm Society Award Recipients - HRS
Recognition Awards. Distinguished Allied Professional Award Recipients Expand ... 1984: Wilson Greatbatch, PE 1983: Brian F. Hoffman, MD 1982: Barouh ...
[43]
Houghton University Endowment Surpasses $80 Million
Jun 17, 2024 · Aside from endowed scholarship funds, the largest endowment was funded with a $15 million gift in 2000 by Wilson and Eleanor Greatbatch, which ...
[44]
Frank Lloyd Wright's Martin House is becoming one of Buffalo's most ...
Jul 2, 2015 · About $10 million of the $50 million restoration budget was spent on ... The Greatbatch Pavilion was funded by Wilson and Eleanor Greatbatch.
[45]
History - East Hill Foundation
The East Hill Foundation is a privately-funded family foundation, which evolved out of the Greatbatch family's tradition of stewardship.
[46]
Search Through Orleans County Grants for Nonprofits in New York
Funding was initiated through small grants out of the family-owned business, Wilson Greatbatch Ltd. In 1986 with the help of Peter Greatbatch, Eleanor and ...<|control11|><|separator|>
[47]
Wilson Greatbatch dies at 92; inventor of first practical implantable ...
Sep 30, 2011 · During World War II, he repaired electronics on a Navy destroyer and operated the radio on convoys to Iceland. The randomness of death and war ...Missing: aviation radioman<|control11|><|separator|>
[48]
https://www.easthillfdn.com/about-us/history/
[49]
Eleanor GREATBATCH Obituary (2011) - Buffalo, NY - Legacy
Feb 6, 2011 · January 30, 2011, Eleanor Fay Greatbatch; wife of implantable pacemaker inventor Wilson Greatbatch, died in Oxford Village at Canterbury Woods, ...
[50]
Greatbatch, Wilson 1919- | Encyclopedia.com
PERSONAL: Born September 6, 1919, in Buffalo, NY; son of Walter Plant (a building contractor) and Charlotte Margaret (Recktenwalt) Greatbatch; married Eleanor ...Missing: childhood family
[51]
Wilson Greatbatch, Presbyterian Elder and Pacemaker Inventor, Dies
Oct 1, 2011 · To power them, Greatbatch did further research in the area of lithium batteries, and he was assisted by Houghton College. The Christian college ...Missing: contributions | Show results with:contributions
[52]
Wilson Greatbatch - Buffalo Architecture and History
Greatbatch had a talent for electronics since his days as a short-wave radio operator at West Seneca High and radar instructor in the World War II Navy, so ...Missing: enlistment date
[53]
Eleanor GREATBATCH Obituary (2011) - Buffalo, NY - Legacy
Feb 6, 2011 · Survivors include her husband of 66 years, Wilson; three sons, Warren, John, Ken, and a daughter, Anne Maciariello. Her youngest son Peter died ...
[54]
Implantable pacemaker inventor Wilson Greatbatch dies - BBC News
Sep 30, 2011 · In his later years, Greatbatch worked on possible cures for Aids. He was awarded the Lemelson-MIT Prize for lifetime achievement in 1996 ...Missing: drug | Show results with:drug
[55]
Wilson GREATBATCH Obituary (2011) - Legacy Remembers
Sep 28, 2011 · GREATBATCH - Wilson September 27, 2011; of Clarence, NY. Family includes Warren and Ami Greatbatch, John and Tommie Greatbatch, ...
[56]
Wilson Greatbatch (1919-2011) - Find a Grave Memorial
Following service with the US Military (with whom he saw action in the Atlantic Theater during World War II), he received his degree in Electrical ...Missing: enlistment Navy
[57]
Our History A history in medical device innovation and manufacturing.
Wilson Greatbatch patents the implantable pacemaker. 1960 – First successful implant of the Greatbatch pacemaker. Introduction of primary cells as the ...