Brachytherapy has long been used to treat benign and, malignant ocular tumors as well as neovascular and fibrovascular, growths.1-24 Widespread acceptance of eye- and, vision-sparing plaque brachytherapy started with lowdose, rate (LDR) cobalt-60 eye plaques.1 Later, LDR, iodine-125 (125I) and then LDR palladium-103 (103Pd), seeds were affixed within high-Z gold, shielded plaque, seed carriers, and thus blocked the radiation posterior, and to the sides of the plaque (Table 21-1).25-28 Iodine-125, and 103Pd plaque brachytherapy diminished radiation, exposure to clinicians, improved the intraocular radiation, distribution, and allowed for outpatient, continuous,, multiday treatments (Mind Map 21-1).24, LDR ruthenium-106/rhodium-106 (106Ru/106Rh) and, high-dose rate (HDR) strontium-90/yttrium-90, (90Sr/90Y) beta-emitting radiation devices were commercialized, in England, Germany, and Russia.21,29-35 Of, these, Amersham’s legacy SIAQ 7321 (Amersham Corporation,, Amersham, UK) and Resutech (Moscow, Russia), HDR 90Sr/90Y sources are most like the currently available, LV Y-90 Disc (Liberty Vision Corp., Portsmouth,, NH, USA). However, unlike those prior 90Sr/90Y applicators, (which contain 2 radionuclides), the LV Y-90 Disc, is a single-source, disc-shaped device capable of being, assembled into clinical applicators (Fig. 21-1).36, For the purposes of this chapter, we will examine the, ocular use of beta-radiation-based brachytherapy for, ocular tumors and benign growths (Table 21-1). Beta-radiation, has been used to treat cancers such as choroidal, melanoma, RB, choroidal metastasis, conjunctival melanoma,, and conjunctival SCC.1,3,4,6,9,13,15,16,18,20-22,24,29,31,33-36, Beta-radiation has also been used to treat benign growths, such as uveal and retinal hemangioma (e.g., circumscribed, choroidal and retinal capillary angiomas) as, well as neovascular macular degeneration, eccentric, disciform degeneration, polypoidal choroidal vasculopathy,, pterygium, and as adjuvant for trabeculectomy, surgery.2,7,8,11,12,14,17-19,37-44, These reports include both LDR and HDR treatments., Of these, the most popularly known HDR 90Sr/90Y treatments, have been performed to prevent the recurrence, of pterygium.2,43,44 However, there also exists statistically, significant medical evidence that 90Sr/90Y has been used, as a tool to treat and prevent both the neovascularization, and fibrovascularization associated with failure of filtering, glaucoma surgery (e.g., trabeculectomy) in high-risk, patients compared to the antifibrotic drug 5-FU.8,13,14,42, Clearly, the literature shows that beta-radiation has been, effective for the treatment of both malignant ocular tumors, and benign growths., This chapter includes Liberty Vision’s experience creating, a new HDR 90Y beta-radiation brachytherapy system., It has been implemented by medical physics, radiation, oncology, and ophthalmology for the treatment of ocular, cancers.36 It is important to note that the 90Y radionuclide, has been previously used for the treatment of cancer in, the form of 90Y-laden glass or plastic microspheres arterially, perfused for radioembolization. Such 90Y treatments, have been directed toward hepatocellular carcinomas,, colon metastases, cholangiocarcinoma, and metastatic, choroidal melanoma. Such HDR 90Y brachytherapy offers, medical evidence of 90Y anticancer efficacy.45-50, Prior to bringing a new beta-radiation source to patient, care, Liberty Vision conducted preclinical studies examining, the dose distribution attributes of a variety of beta, sources. After choosing 90Y, Liberty Vision developed,, produced, and then obtained US Food and Drug Administration, (FDA) clearance for discrete 90Y disc sources to, be used in ophthalmic applicators.51 The clinical practice, parameters were then developed to implement this, new brachytherapy system. These included source calibration,, radiobiological dose derivation, sterilization,, assembly, radiation safety, and surgical techniques.36