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§ Private Profile · 420 Westwood Plaza, Los Angeles, CA 90095, USA
UCLA Mechanical Engineering Spin-Out is a company.
Horizon Surgical Systems develops the Polaris platform, a robotic surgical system designed to enhance precision and consistency in ophthalmic procedures, particularly cataract surgery. This technology allows surgeons to perform delicate intraocular interventions with micron-level accuracy, utilizing a specialized cockpit that provides real-time augmented guidance and tactile feedback while controlling robotic arms equipped with interchangeable microsurgical tools for corneal incisions and lens manipulation.
The company was co-founded in 2021 by four current and former UCLA faculty members, including Professors Jacob Rosen and Tsu-Chin Tsao from mechanical and aerospace engineering, alongside Dr. Jean-Pierre Hubschman and Dr. Steven Schwartz from ophthalmology. Their collaboration spanned over 15 years between the UCLA Samueli School of Engineering and the UCLA Stein Eye Institute, born from the insight that integrating engineering solutions with medical challenges could significantly advance surgical capabilities.
Horizon Surgical Systems aims to transform cataract care, making eye surgeries more precise and consistent for ophthalmic surgeons and their patients. The company is actively refining its Polaris system, pursuing further clinical studies and regulatory approvals to facilitate the broader adoption of robotic-assisted ophthalmic surgery and improve patient outcomes globally.
Key people at UCLA Mechanical Engineering Spin-Out.
Key people at UCLA Mechanical Engineering Spin-Out.
No specific company named "UCLA Mechanical Engineering Spin-Out" exists as a standalone entity in available records; the query likely refers to spin-outs from UCLA's Henry Samueli School of Engineering and Applied Science, which includes Mechanical and Aerospace Engineering, often facilitated through the Institute for Carbon Management (ICM) or Technology Development Group (TDG).[1][2][5] ICM, founded in 2019, accelerates commercialization of climate tech from UCLA labs (TRL 2-4) in industrial decarbonization, carbon removal, and energy transition, spinning out companies like CarbonBuilt (ultra-low-carbon concrete reducing emissions by 70-100%), Concrete AI (AI-optimized mix designs), Equatic, and others targeting >0.5 Gt CO2 removal.[1][6][9] These serve heavy industries (cement, steel), energy sectors, and critical minerals extraction, solving hard-to-abate emissions with scalable prototypes backed by federal, corporate, and investor partners, driving real-world decarbonization.[1][6]
UCLA engineering spin-outs trace to research in the Samueli School, with ICM established in 2019 by UCLA scientists like Gaurav Sant (focused on decarbonization challenges) to bridge bench-scale tech to startups.[1][7] Key early spin-out CarbonBuilt emerged from ICM's de-risking process—scientists validate science, engineers build pilots (e.g., in LA/Singapore), business teams secure product-market fit—leading to its status as ICM's first spin-out.[1] Broader UCLA efforts via TDG (a 501(c)(3) managing 1,000+ patents) have spun out firms like Holomic (2015 World Economic Forum Technology Pioneer from engineering tech) and supported mechanical engineering-related commercialization, including job postings requiring Mechanical Engineering expertise for ICM spin-outs like CarbonBuilt and Concrete AI.[2][4][5][9] Pivotal moments include raising $740M+ across UCLA spin-outs and operational pilots demonstrating scalability.[1][4]
UCLA Mechanical Engineering-linked spin-outs ride the global decarbonization wave, addressing industrial emissions amid net-zero mandates and IRA incentives, where timing aligns with urgent needs for scalable solutions in cement/steel (hard-to-abate via renewables alone).[1][6][7] Market forces like rising carbon pricing and mineral demands (Li, Ni for batteries) favor low-cost, low-footprint tech from waste sources.[6] They influence the ecosystem by de-risking deep tech for investors, generating economic impact (e.g., $740M raised by UCLA spin-outs), and proving academic-to-commercial paths, bolstering LA's cleantech hub while advancing >0.5 Gt CO2 reduction goals.[1][4]
Next steps include scaling pilots to more spin-outs (e.g., Nextli in stealth for cement decarbonization) and expanding critical minerals projects amid EV/energy transition booms.[1][6] Trends like AI integration (Concrete AI) and direct extraction will shape growth, with ICM's model evolving influence via more federal partnerships and global pilots. As decarbonization accelerates, these spin-outs position UCLA engineering as a climate tech powerhouse, transforming lab breakthroughs into ecosystem-defining ventures.
