A Study to Evaluate the Efficacy and Safety of Faricimab in Participants With Neovascular Age-Related Macular Degeneration (TENAYA)

Wet Macular Degeneration Clinical Trial

Official title:

A Phase III, Multicenter, Randomized, Double-Masked, Active Comparator-Controlled Study to Evaluate the Efficacy and Safety of Faricimab in Patients With Neovascular Age-Related Macular Degeneration (TENAYA)

Clinical Trial Details — Status: Completed

Administrative data

• NCT number: NCT03823287
• Other study ID #: GR40306
• Secondary ID: 2018-002152-32
• Status: Completed
• Phase: Phase 3
• Start date: February 19, 2019
• Est. completion date: January 18, 2022

Study information

• Verified date: January 2023
• Source: Hoffmann-La Roche
• Contact: n/a
• Is FDA regulated: No
• Study type: Interventional

Clinical Trial Summary

This study will evaluate the efficacy, safety, durability, and pharmacokinetics of faricimab administered at intervals as specified in the protocol, compared with aflibercept once every 8 weeks (Q8W), in participants with neovascular age-related macular degeneration (nAMD).

Recruitment information / eligibility

• Status: Completed
• Enrollment: 671
• Est. completion date: January 18, 2022
• Est. primary completion date: October 26, 2020
• Accepts healthy volunteers: No
• Gender: All
• Age group: 50 Years and older

Eligibility

Inclusion Criteria:

• Treatment-naïve choroidal neovascularization (CNV) secondary to age-related macular degeneration (nAMD) in the study eye

• Ability to comply with the study protocol, in the investigator's judgment

• For women of childbearing potential: agreement to remain abstinent (refrain from heterosexual intercourse) or use acceptable contraceptive measures that result in failure rate <1% per year during the treatment period and for at least 3 months after the final dose of study treatment

• Other protocol-specified inclusion criteria may apply

Exclusion Criteria:

• Uncontrolled blood pressure, defined as systolic blood pressure >180 millimeters of mercury (mmHg) and/or diastolic blood pressure >100 mmHg while a patient is at rest on Day 1

• Pregnancy or breastfeeding, or intention to become pregnant during the study

• CNV due to causes other than AMD in the study eye

• Any history of macular pathology unrelated to AMD affecting vision or contributing to the presence of intraretinal or subretinal fluid in the study eye

• Any concurrent intraocular condition in the study eye that, in the opinion of the investigator, could either reduce the potential for visual improvement or require medical or surgical intervention during the study

• Uncontrolled glaucoma in the study eye

• Any prior or concomitant treatment for CNV or vitreomacular-interface abnormalities in the study eye

• Prior IVT administration of faricimab in either eye

• History of idiopathic or autoimmune-associated uveitis in either eye

• Active ocular inflammation or suspected or active ocular or periocular infection in either eye

• Other protocol-specified exclusion criteria may apply

Related Conditions & MeSH terms

• Macular Degeneration
• Wet Macular Degeneration

Intervention

Drug:
• Faricimab
Faricimab will be administered by intravitreal injection into the study eye at intervals as specified in the study protocol.
• Aflibercept
Aflibercept will be administered by intravitreal injection into the study eye once every 4 weeks for 3 consecutive months, followed by once every 8 weeks (Q8W).

Procedure:
• Sham Procedure
The sham is a procedure that mimics an intravitreal injection, but involves the blunt end of an empty syringe (without a needle) being pressed against the anesthetized eye. It will be administered to participants in both treatments arms at applicable visits to maintain masking.

Locations

Country	Name	City	State
Canada	Institut De L'Oeil Des Laurentides	Boisbriand	Quebec
Canada	Calgary Retina Consultants	Calgary	Alberta
Canada	Ivey Eye Institute	London	Ontario
Canada	The Retina Centre of Ottawa	Ottawa	Ontario
Canada	University of Ottawa Eye Institute	Ottawa	Ontario
Canada	Michel Giunta Clinique Medical	Sherbrooke	Quebec
Canada	Toronto Retina Institute	Toronto	Ontario
Canada	Unity Health Toronto	Toronto	Ontario
Canada	University of British Columbia - Vancouver Coastal Health Authority	Vancouver	British Columbia
Germany	Universitätsklinikum Freiburg, Klinik für Augenheilkunde	Freiburg
Germany	Universitätsklinik Heidelberg; Augenklinik	Heidelberg
Germany	Universitätsklinikum Tübingen	Tübingen
Hungary	Budapest Retina Associates Kft.	Budapest
Hungary	Debreceni Egyetem Klinikai Kozpont; Szemeszeti Klinika	Debrecen
Hungary	Ganglion Medial Center	Pécs
Hungary	Zala Megyei Kórház; SZEMESZET	Zalaegerszeg
Israel	Rambam Medical Center; Opthalmology	Haifa
Israel	Hadassah MC; Ophtalmology	Jerusalem
Israel	Rabin MC; Ophtalmology	Petach Tikva
Israel	Kaplan Medical Center; Ophtalmology	Rehovot
Israel	Tel Aviv Sourasky MC; Ophtalmology	Tel Aviv
Italy	Fondazione Irccs Ca' Granda Ospedale Maggiore Policlinico-Clinica Regina Elena;U.O.C Oculistica	Milano	Lombardia
Italy	Azienda Ospedaliera di Perugia Ospedale S. Maria Della Misericordia; Clinica Oculistica	Perugia	Umbria
Italy	Fondazione G.B. Bietti Per Lo Studio E La Ricerca in Oftalmologia-Presidio Ospedaliero Britannico	Roma	Lazio
Japan	Aichi Medical University Hospital	Aichi
Japan	Chukyo Hospital	Aichi
Japan	Daiyukai Daiichi Hospital	Aichi
Japan	Nagoya City University Hospital	Aichi
Japan	Nagoya University Hospital	Aichi
Japan	Chiba University Hospital	Chiba
Japan	Toho University Sakura Medical Center	Chiba
Japan	Hayashi Eye Hospital	Fukuoka
Japan	Kurume University Hospital	Fukuoka
Japan	Fukushima Medical University Hospital	Fukushima
Japan	Southern TOHOKU Eye Clinic	Fukushima
Japan	Asahikawa Medical University Hospital	Hokkaido
Japan	Hokkaido University Hospital	Hokkaido
Japan	Sapporo City General Hospital	Hokkaido
Japan	Hyogo Medical University Hospital	Hyogo
Japan	Hyogo Prefectural Amagasaki General Medical Center (Hyogo AGMC)	Hyogo
Japan	Kozawa eye hospital and diabetes center	Ibaraki
Japan	Kagawa University Hospital	Kagawa
Japan	Kagoshima University Hospital	Kagoshima
Japan	Ideta Eye Hospital	Kumamoto
Japan	Kyoto University Hospital	Kyoto
Japan	Mie University Hospital	Mie
Japan	University of Miyazaki Hospital	Miyazaki
Japan	Iida Municipal Hospital	Nagano
Japan	Shinshu University Hospital	Nagano
Japan	Japanese Red Cross Nagasaki Genbaku Hospital	Nagasaki
Japan	Nara Medical University Hospital	Nara
Japan	University of the Ryukyus Hospital	Okinawa
Japan	Kansai Medical University Hospital	Osaka
Japan	Kansai Medical University Medical Center	Osaka
Japan	Kitano Hospital	Osaka
Japan	Osaka Metropolitan University Hospital	Osaka
Japan	National Defense Medical College Hospital	Saitama
Japan	Shiga University Of Medical Science Hospital	Shiga
Japan	Tokushima University Hospital	Tokushima
Japan	Kyorin University Hospital	Tokyo
Japan	Nihon University Hospital	Tokyo
Japan	Takeuchi eye clinic	Tokyo
Japan	Tokyo Medical University Hachioji Medical Center	Tokyo
Japan	Tokyo Women's Medical University Hospital	Tokyo
Japan	Yamaguchi University Hospital	Yamaguchi
Mexico	Centro Oftalmológico Mira, S.C	Del. Cuauhtemoc	Mexico CITY (federal District)
Mexico	Macula Retina Consultores	Mexico, D.F.
Mexico	Montemayor & Asociados (Oftalmologos)	Monterrey Nuevo LEON
Netherlands	Het Oogziekenhuis Rotterdam	Rotterdam
Netherlands	ETZ Elisabeth	Tilburg
Poland	Szpital sw. Lukasza	Bielsko-Biala
Poland	Specjalistyczny Osrodek Okulistyczny Oculomedica	Bydgoszcz
Poland	Szpital Specjalistyczny nr 1; Oddzial Okulistyki	Bytom
Poland	Dobry Wzrok Sp Z O O	Gdansk
Poland	Gabinet Okulistyczny Prof Edward Wylegala	Katowice
Poland	Centrum Medyczne Dietla 19 Sp. Z O.O.	Kraków
Poland	SPEKTRUM Osrodek Okulistyki Klinicznej	Wroclaw
Russian Federation	Clinics of Eye Diseases, LLC	Kazan	Tatarstan
Russian Federation	FSBI "Scientific Research Institute of Eye Diseases" of Russian Academy of medical Sciences	Moscow
Russian Federation	Medical Military Academy n.a S.M.Kirov	St.Petersburg	Sankt Petersburg
Spain	Hospital dos de maig; servicio de oftalmologia	Barcelona
Spain	Oftalvist Valencia	Burjassot	Valencia
Spain	Clinica Baviera; Servicio Oftalmologia	Madrid
Spain	Clinica Universitaria de Navarra; Servicio de Oftalmologia	Madrid
Spain	Hospital Universitario Puerta de Hierro	Majadahonda	Madrid
Spain	Clinica Universitaria de Navarra; Servicio de Oftalmologia	Pamplona	Navarra
Spain	Hospital General de Catalunya	San Cugat Del Valles	Barcelona
Spain	Instituto Oftalmologico Gomez Ulla; Servicio de Oftalmologia	Santiago de Compostela	LA Coruña
Switzerland	Vista Klinik Ophthalmologische Klinik	Binningen
Switzerland	Stadtspital Triemli Ophthalmologische Klinik	Zürich
Turkey	Ankara Baskent University Medical Faculty; Department of Ophthalmology	Ankara
Turkey	Kocaeli Üniversitesi Tip Fakültesi; Department of Ophthalmology	Kocaeli
Turkey	Selcuk University Faculty of Medicine; Department Of Ophthalmology	Konya
United Kingdom	Bradford Royal Infirmary	Bradford
United Kingdom	Bristol Eye Hospital	Bristol
United Kingdom	University Hospital of Wales	Cardiff
United Kingdom	Frimley Park Hospital	Frimley
United Kingdom	Gloucestershire Royal Hospital	Gloucester
United Kingdom	Hull Royal Infirmary	Hull
United Kingdom	St James University Hospital	Leeds
United Kingdom	Royal Liverpool University Hospital; St Paul's Clinical Eye Research Centre	Liverpool
United Kingdom	Moorfields Eye Hospital NHS Foundation Trust	London
United Kingdom	Royal Free Hospital	London
United Kingdom	Manchester Royal Infirmary	Manchester
United Kingdom	Royal Victoria Infirmary	Newcastle upon Tyne
United Kingdom	Southampton General Hospital	Southampton
United Kingdom	New Cross Hospital	Wolverhampton
United Kingdom	The York Hospital	York
United States	Western Carolina Retinal Associate PA	Asheville	North Carolina
United States	Johns Hopkins Med; Wilmer Eye Inst	Baltimore	Maryland
United States	Tufts Medical Center; Ophthalmology	Boston	Massachusetts
United States	Retinal Diagnostic Center	Campbell	California
United States	Char Eye Ear &Throat Assoc	Charlotte	North Carolina
United States	Midwest Vision Research Foundation	Chesterfield	Missouri
United States	Retina Group of Washington	Chevy Chase	Maryland
United States	Northwestern Medical Group/Northwestern University	Chicago	Illinois
United States	Cincinnati Eye Institute	Cincinnati	Ohio
United States	Retina Consultants of Southern	Colorado Springs	Colorado
United States	Texas Retina Associates	Dallas	Texas
United States	Rand Eye	Deerfield Beach	Florida
United States	NJ Retina	Edison	New Jersey
United States	The Retina Partners	Encino	California
United States	Retina Associates of St. Louis	Florissant	Missouri
United States	Charles Retina Institute	Germantown	Tennessee
United States	Associated Retinal Consultants	Grand Rapids	Michigan
United States	Valley Retina Institute P.A.	Harlingen	Texas
United States	Long Is. Vitreoretinal Consult	Hauppauge	New York
United States	Graystone Eye	Hickory	North Carolina
United States	Retina & Vitreous of Texas	Houston	Texas
United States	Jacobs Retina center at the Shiley eye Institute UCSD	La Jolla	California
United States	Charleston Neuroscience Inst	Ladson	South Carolina
United States	Retina Associates	Lenexa	Kansas
United States	Retina Vit Surgeons/Central NY	Liverpool	New York
United States	South Coast Retina Center	Los Angeles	California
United States	Florida Eye Associates	Melbourne	Florida
United States	Barnet Dulaney Perkins Eye Center	Mesa	Arizona
United States	Tennessee Retina PC.	Nashville	Tennessee
United States	Ophthalmic Cons of Long Island	Oceanside	New York
United States	Southern CA Desert Retina Cons	Palm Desert	California
United States	California Eye Specialists Medical group Inc.	Pasadena	California
United States	Retina Specialty Institute	Pensacola	Florida
United States	Mid Atlantic Retina - Wills Eye Hospital	Philadelphia	Pennsylvania
United States	Retinal Research Institute, LLC	Phoenix	Arizona
United States	Fort Lauderdale Eye Institute	Plantation	Florida
United States	Retina Northwest	Portland	Oregon
United States	Retina Consultants, San Diego	Poway	California
United States	Black Hills Eye Institute	Rapid City	South Dakota
United States	Retina Consultants of Southern California	Redlands	California
United States	Sierra Eye Associates	Reno	Nevada
United States	Retina Assoc of Western NY	Rochester	New York
United States	University of California, Davis, Eye Center	Sacramento	California
United States	Retina Vitreous Assoc of FL	Saint Petersburg	Florida
United States	Rocky Mountain Retina	Salt Lake City	Utah
United States	The Retina Consultants	Slingerlands	New York
United States	Carolina Eye Associates	Southern Pines	North Carolina
United States	Spokane Eye Clinical Research	Spokane	Washington
United States	Retina Associates of NJ	Teaneck	New Jersey
United States	Retina Consultants of Texas	The Woodlands	Texas
United States	Retina Associates Southwest PC	Tucson	Arizona
United States	Retina Group of New England	Waterford	Connecticut

Sponsors (1)

Lead Sponsor	Collaborator
Hoffmann-La Roche

Countries where clinical trial is conducted

United States,  Canada,  Germany,  Hungary,  Israel,  Italy,  Japan,  Mexico,  Netherlands,  Poland,  Russian Federation,  Spain,  Switzerland,  Turkey,  United Kingdom, 

Outcome

Type	Measure	Description	Time frame	Safety issue
Primary	Change From Baseline in BCVA in the Study Eye Averaged Over Weeks 40, 44, and 48	Best Corrected Visual Acuity (BCVA) was measured on the Early Treatment Diabetic Retinopathy Study (ETDRS) chart at a starting distance of 4 meters. The BCVA letter score ranges from 0 to 100 (best score), and a gain in BCVA from baseline indicates an improvement in visual acuity. The Mixed Model of Repeated Measures (MMRM) analysis adjusted for treatment arm, visit, visit-by-treatment arm interaction, baseline BCVA (continuous), baseline BCVA (=74, 73-55, and =54 letters), baseline LLD (<33 and =33 letters), and region (U.S. and Canada, Asia, and rest of the world). An unstructured covariance structure was used. Treatment policy strategy (i.e., all observed values used) and hypothetical strategy (i.e., all values censored after occurrence of the intercurrent event) were applied to non-COVID-19 related and COVID-19 related intercurrent events, respectively. Missing data were implicitly imputed by MMRM. Invalid BCVA values were excluded from analysis. 95% CI is a rounding of 95.03% CI.	From Baseline through Week 48
Secondary	Change From Baseline in BCVA in the Study Eye Averaged Over Weeks 52, 56, and 60	Best Corrected Visual Acuity (BCVA) was measured on the Early Treatment Diabetic Retinopathy Study (ETDRS) chart at a starting distance of 4 meters. The BCVA letter score ranges from 0 to 100 (best score), and a gain in BCVA from baseline indicates an improvement in visual acuity. The Mixed Model of Repeated Measures (MMRM) analysis adjusted for treatment arm, visit, visit-by-treatment arm interaction, baseline BCVA (continuous), baseline BCVA (=74, 73-55, and =54 letters), baseline LLD (<33 and =33 letters), and region (U.S. and Canada, Asia, and rest of the world). An unstructured covariance structure was used. Treatment policy strategy (i.e., all observed values used) and hypothetical strategy (i.e., all values censored after occurrence of the intercurrent event) were applied to non-COVID-19 related and COVID-19 related intercurrent events, respectively. Missing data were implicitly imputed by MMRM. Invalid BCVA values were excluded from analysis. 95% CI is a rounding of 95.03% CI.	From Baseline through Week 60
Secondary	Change From Baseline in BCVA in the Study Eye Over Time	Best Corrected Visual Acuity (BCVA) was measured on the Early Treatment Diabetic Retinopathy Study (ETDRS) chart at a starting distance of 4 meters. The BCVA letter score ranges from 0 to 100 (best score), and a gain in BCVA from baseline indicates an improvement in visual acuity. The Mixed Model of Repeated Measures (MMRM) analysis adjusted for treatment arm, visit, visit-by-treatment arm interaction, baseline BCVA (continuous), baseline BCVA (=74, 73-55, and =54 letters), baseline LLD (<33 and =33 letters), and region (U.S. and Canada, Asia, and rest of the world). An unstructured covariance structure was used. Treatment policy strategy (i.e., all observed values used) and hypothetical strategy (i.e., all values censored after occurrence of the intercurrent event) were applied to non-COVID-19 related and COVID-19 related intercurrent events, respectively. Missing data were implicitly imputed by MMRM. Invalid BCVA values were excluded from analysis. 95% CI is a rounding of 95.03% CI.	Baseline, Weeks 4, 8, 12, 16, 20, 24, 28, 32, 36, 40, 44, 48, 52, 56, 60, 64, 68, 72, 76, 80, 84, 88, 92, 96, 100, 104, 108, and 112
Secondary	Percentage of Participants Gaining Greater Than or Equal to (=)15, =10, =5, or =0 Letters From the Baseline BCVA in the Study Eye Averaged Over Weeks 40, 44, and 48	BCVA was measured on the ETDRS chart at a starting distance of 4 meters. The BCVA letter score ranges from 0 to 100 (best score), and a gain in BCVA from baseline indicates an improvement in visual acuity. For each participant, an average BCVA value was calculated across the three visits, and this averaged value was used to determine if the endpoint was met. The results were summarized as the percentage of participants per treatment arm who met the endpoint. The weighted percentage of participants was based on the Cochran-Mantel Haenszel (CMH) weights stratified by baseline BCVA (=74 letters, 73-55 letters, and =54 letters), baseline LLD (=33 letters and <33 letters), and region (U.S. and Canada vs. rest of the world). Treatment policy strategy and hypothetical strategy were applied to non-COVID-19 related and COVID-19 related intercurrent events, respectively. Missing data were not imputed. Invalid BCVA values were excluded. 95% confidence interval (CI) is a rounding of 95.03% CI.	Baseline, average of Weeks 40, 44, and 48
Secondary	Percentage of Participants Gaining =15 Letters From the Baseline BCVA in the Study Eye Averaged Over Weeks 52, 56, and 60	BCVA was measured on the ETDRS chart at a starting distance of 4 meters. The BCVA letter score ranges from 0 to 100 (best score), and a gain in BCVA from baseline indicates an improvement in visual acuity. For each participant, an average BCVA value was calculated across the three visits, and this averaged value was used to determine if the endpoint was met. The results were summarized as the percentage of participants per treatment arm who met the endpoint. The weighted percentage of participants was based on the Cochran-Mantel Haenszel (CMH) weights stratified by baseline BCVA (=74 letters, 73-55 letters, and =54 letters), baseline LLD (=33 letters and <33 letters), and region (U.S. and Canada vs. rest of the world). Treatment policy strategy and hypothetical strategy were applied to non-COVID-19 related and COVID-19 related intercurrent events, respectively. Missing data were not imputed. Invalid BCVA values were excluded. 95% confidence interval (CI) is a rounding of 95.03% CI.	Baseline, average of Weeks 52, 56, and 60
Secondary	Percentage of Participants Gaining =15 Letters From the Baseline BCVA in the Study Eye Over Time	Best Corrected Visual Acuity (BCVA) was measured on the Early Treatment Diabetic Retinopathy Study (ETDRS) chart at a starting distance of 4 meters. The BCVA letter score ranges from 0 to 100 (best score), and a gain in BCVA letter score from baseline indicates an improvement in visual acuity. The weighted percentage of participants was based on the Cochran-Mantel Haenszel (CMH) weights stratified by baseline BCVA (=74 letters, 73-55 letters, and =54 letters), baseline LLD (=33 letters and <33 letters), and region (U.S. and Canada vs. rest of the world; Asia and rest of the world were combined). Treatment policy strategy (i.e., all observed values used) and hypothetical strategy (i.e., all values censored after the occurrence of the intercurrent event) were applied to non-COVID-19 related and COVID-19 related intercurrent events, respectively. Missing data were not imputed. Invalid BCVA values were excluded from analysis. 95% confidence interval (CI) is a rounding of 95.03% CI.	Baseline, Weeks 4, 8, 12, 16, 20, 24, 28, 32, 36, 40, 44, 48, 52, 56, 60, 64, 68, 72, 76, 80, 84, 88, 92, 96, 100, 104, 108, and 112
Secondary	Percentage of Participants Gaining =10 Letters From the Baseline BCVA in the Study Eye Over Time	Best Corrected Visual Acuity (BCVA) was measured on the Early Treatment Diabetic Retinopathy Study (ETDRS) chart at a starting distance of 4 meters. The BCVA letter score ranges from 0 to 100 (best score), and a gain in BCVA letter score from baseline indicates an improvement in visual acuity. The weighted percentage of participants was based on the Cochran-Mantel Haenszel (CMH) weights stratified by baseline BCVA (=74 letters, 73-55 letters, and =54 letters), baseline LLD (=33 letters and <33 letters), and region (U.S. and Canada vs. rest of the world; Asia and rest of the world were combined). Treatment policy strategy (i.e., all observed values used) and hypothetical strategy (i.e., all values censored after the occurrence of the intercurrent event) were applied to non-COVID-19 related and COVID-19 related intercurrent events, respectively. Missing data were not imputed. Invalid BCVA values were excluded from analysis. 95% confidence interval (CI) is a rounding of 95.03% CI.	Baseline, Weeks 4, 8, 12, 16, 20, 24, 28, 32, 36, 40, 44, 48, 52, 56, 60, 64, 68, 72, 76, 80, 84, 88, 92, 96, 100, 104, 108, and 112
Secondary	Percentage of Participants Gaining =5 Letters From the Baseline BCVA in the Study Eye Over Time	Best Corrected Visual Acuity (BCVA) was measured on the Early Treatment Diabetic Retinopathy Study (ETDRS) chart at a starting distance of 4 meters. The BCVA letter score ranges from 0 to 100 (best score), and a gain in BCVA letter score from baseline indicates an improvement in visual acuity. The weighted percentage of participants was based on the Cochran-Mantel Haenszel (CMH) weights stratified by baseline BCVA (=74 letters, 73-55 letters, and =54 letters), baseline LLD (=33 letters and <33 letters), and region (U.S. and Canada vs. rest of the world; Asia and rest of the world were combined). Treatment policy strategy (i.e., all observed values used) and hypothetical strategy (i.e., all values censored after the occurrence of the intercurrent event) were applied to non-COVID-19 related and COVID-19 related intercurrent events, respectively. Missing data were not imputed. Invalid BCVA values were excluded from analysis. 95% confidence interval (CI) is a rounding of 95.03% CI.	Baseline, Weeks 4, 8, 12, 16, 20, 24, 28, 32, 36, 40, 44, 48, 52, 56, 60, 64, 68, 72, 76, 80, 84, 88, 92, 96, 100, 104, 108, and 112
Secondary	Percentage of Participants Gaining =0 Letters From the Baseline BCVA in the Study Eye Over Time	Best Corrected Visual Acuity (BCVA) was measured on the Early Treatment Diabetic Retinopathy Study (ETDRS) chart at a starting distance of 4 meters. The BCVA letter score ranges from 0 to 100 (best score), and a gain in BCVA letter score from baseline indicates an improvement in visual acuity. The weighted percentage of participants was based on the Cochran-Mantel Haenszel (CMH) weights stratified by baseline BCVA (=74 letters, 73-55 letters, and =54 letters), baseline LLD (=33 letters and <33 letters), and region (U.S. and Canada vs. rest of the world; Asia and rest of the world were combined). Treatment policy strategy (i.e., all observed values used) and hypothetical strategy (i.e., all values censored after the occurrence of the intercurrent event) were applied to non-COVID-19 related and COVID-19 related intercurrent events, respectively. Missing data were not imputed. Invalid BCVA values were excluded from analysis. 95% confidence interval (CI) is a rounding of 95.03% CI.	Baseline, Weeks 4, 8, 12, 16, 20, 24, 28, 32, 36, 40, 44, 48, 52, 56, 60, 64, 68, 72, 76, 80, 84, 88, 92, 96, 100, 104, 108, and 112
Secondary	Percentage of Participants Avoiding a Loss of =15, =10, or =5 Letters From the Baseline BCVA in the Study Eye Averaged Over Weeks 40, 44, and 48	Best Corrected Visual Acuity (BCVA) was measured on the Early Treatment Diabetic Retinopathy Study (ETDRS) chart at a starting distance of 4 meters. For each participant, an average BCVA value was calculated across the three visits, and this averaged value was then used to determine if the endpoint was met. The results were summarized as the percentage of participants per treatment arm who met the endpoint. The weighted percentage of participants was based on the Cochran-Mantel Haenszel (CMH) weights stratified by baseline BCVA (=74 letters, 73-55 letters, and =54 letters), baseline LLD (=33 letters and <33 letters), and region (U.S. and Canada vs. rest of the world). Treatment policy strategy and hypothetical strategy were applied to non-COVID-19 related and COVID-19 related intercurrent events, respectively. Missing data were not imputed. Invalid BCVA values were excluded. 95% confidence interval (CI) is a rounding of 95.03% CI.	Baseline, average of Weeks 40, 44, and 48
Secondary	Percentage of Participants Avoiding a Loss of =15 Letters From the Baseline BCVA in the Study Eye Averaged Over Weeks 52, 56, and 60	Best Corrected Visual Acuity (BCVA) was measured on the Early Treatment Diabetic Retinopathy Study (ETDRS) chart at a starting distance of 4 meters. For each participant, an average BCVA value was calculated across the three visits, and this averaged value was then used to determine if the endpoint was met. The results were summarized as the percentage of participants per treatment arm who met the endpoint. The weighted percentage of participants was based on the Cochran-Mantel Haenszel (CMH) weights stratified by baseline BCVA (=74 letters, 73-55 letters, and =54 letters), baseline LLD (=33 letters and <33 letters), and region (U.S. and Canada vs. rest of the world). Treatment policy strategy and hypothetical strategy were applied to non-COVID-19 related and COVID-19 related intercurrent events, respectively. Missing data were not imputed. Invalid BCVA values were excluded. 95% confidence interval (CI) is a rounding of 95.03% CI.	Baseline, average of Weeks 52, 56, and 60
Secondary	Percentage of Participants Avoiding a Loss of =15 Letters From the Baseline BCVA in the Study Eye Over Time	Best Corrected Visual Acuity (BCVA) was measured on the Early Treatment Diabetic Retinopathy Study (ETDRS) chart at a starting distance of 4 meters. The weighted percentage of participants avoiding a loss of letters in BCVA from baseline was based on the Cochran-Mantel Haenszel (CMH) weights stratified by baseline BCVA (=74 letters, 73-55 letters, and =54 letters), baseline LLD (=33 letters and <33 letters), and region (U.S. and Canada vs. rest of the world; Asia and rest of the world were combined). Treatment policy strategy (i.e., all observed values used) and hypothetical strategy (i.e., all values censored after the occurrence of the intercurrent event) were applied to non-COVID-19 related and COVID-19 related intercurrent events, respectively. Missing data were not imputed. Invalid BCVA values were excluded from analysis. 95% confidence interval (CI) is a rounding of 95.03% CI.	Baseline, Weeks 4, 8, 12, 16, 20, 24, 28, 32, 36, 40, 44, 48, 52, 56, 60, 64, 68, 72, 76, 80, 84, 88, 92, 96, 100, 104, 108, and 112
Secondary	Percentage of Participants Avoiding a Loss of =10 Letters From the Baseline BCVA in the Study Eye Over Time	Best Corrected Visual Acuity (BCVA) was measured on the Early Treatment Diabetic Retinopathy Study (ETDRS) chart at a starting distance of 4 meters. The weighted percentage of participants avoiding a loss of letters in BCVA from baseline was based on the Cochran-Mantel Haenszel (CMH) weights stratified by baseline BCVA (=74 letters, 73-55 letters, and =54 letters), baseline LLD (=33 letters and <33 letters), and region (U.S. and Canada vs. rest of the world; Asia and rest of the world were combined). Treatment policy strategy (i.e., all observed values used) and hypothetical strategy (i.e., all values censored after the occurrence of the intercurrent event) were applied to non-COVID-19 related and COVID-19 related intercurrent events, respectively. Missing data were not imputed. Invalid BCVA values were excluded from analysis. 95% confidence interval (CI) is a rounding of 95.03% CI.	Baseline, Weeks 4, 8, 12, 16, 20, 24, 28, 32, 36, 40, 44, 48, 52, 56, 60, 64, 68, 72, 76, 80, 84, 88, 92, 96, 100, 104, 108, and 112
Secondary	Percentage of Participants Avoiding a Loss of =5 Letters From the Baseline BCVA in the Study Eye Over Time	Best Corrected Visual Acuity (BCVA) was measured on the Early Treatment Diabetic Retinopathy Study (ETDRS) chart at a starting distance of 4 meters. The weighted percentage of participants avoiding a loss of letters in BCVA from baseline was based on the Cochran-Mantel Haenszel (CMH) weights stratified by baseline BCVA (=74 letters, 73-55 letters, and =54 letters), baseline LLD (=33 letters and <33 letters), and region (U.S. and Canada vs. rest of the world; Asia and rest of the world were combined). Treatment policy strategy (i.e., all observed values used) and hypothetical strategy (i.e., all values censored after the occurrence of the intercurrent event) were applied to non-COVID-19 related and COVID-19 related intercurrent events, respectively. Missing data were not imputed. Invalid BCVA values were excluded from analysis. 95% confidence interval (CI) is a rounding of 95.03% CI.	Baseline, Weeks 4, 8, 12, 16, 20, 24, 28, 32, 36, 40, 44, 48, 52, 56, 60, 64, 68, 72, 76, 80, 84, 88, 92, 96, 100, 104, 108, and 112
Secondary	Percentage of Participants Gaining =15 Letters From the Baseline BCVA or Achieving BCVA Snellen Equivalent of 20/20 or Better (BCVA =84 Letters) in the Study Eye Averaged Over Weeks 40, 44, and 48	BCVA was measured on the ETDRS chart at a starting distance of 4 meters. The BCVA letter score ranges from 0 to 100 (best score), and a gain in BCVA from baseline indicates an improvement in visual acuity. For each participant, an average BCVA value was calculated across the three visits, and this averaged value was used to determine if the endpoint was met. The results were summarized as the percentage of participants per treatment arm who met the endpoint. The weighted percentage of participants was based on the Cochran-Mantel Haenszel (CMH) weights stratified by baseline BCVA (=74 letters, 73-55 letters, and =54 letters), baseline LLD (=33 letters and <33 letters), and region (U.S. and Canada vs. rest of the world). Treatment policy strategy and hypothetical strategy were applied to non-COVID-19 related and COVID-19 related intercurrent events, respectively. Missing data were not imputed. Invalid BCVA values were excluded. 95% confidence interval (CI) is a rounding of 95.03% CI.	Baseline, average of Weeks 40, 44, and 48
Secondary	Percentage of Participants Gaining =15 Letters From the Baseline BCVA or Achieving BCVA Snellen Equivalent of 20/20 or Better (BCVA =84 Letters) in the Study Eye Over Time	Best Corrected Visual Acuity (BCVA) was measured on the Early Treatment Diabetic Retinopathy Study (ETDRS) chart at a starting distance of 4 meters. The BCVA letter score ranges from 0 to 100 (best score), and a gain in BCVA letter score from baseline indicates an improvement in visual acuity. The weighted percentage of participants was based on the Cochran-Mantel Haenszel (CMH) weights stratified by baseline BCVA (=74 letters, 73-55 letters, and =54 letters), baseline LLD (=33 letters and <33 letters), and region (U.S. and Canada vs. rest of the world; Asia and rest of the world were combined). Treatment policy strategy (i.e., all observed values used) and hypothetical strategy (i.e., all values censored after the occurrence of the intercurrent event) were applied to non-COVID-19 related and COVID-19 related intercurrent events, respectively. Missing data were not imputed. Invalid BCVA values were excluded from analysis. 95% confidence interval (CI) is a rounding of 95.03% CI.	Baseline, Weeks 4, 8, 12, 16, 20, 24, 28, 32, 36, 40, 44, 48, 52, 56, 60, 64, 68, 72, 76, 80, 84, 88, 92, 96, 100, 104, 108, and 112
Secondary	Percentage of Participants With BCVA Snellen Equivalent of 20/40 or Better (BCVA =69 Letters) in the Study Eye Averaged Over Weeks 40, 44, and 48	BCVA was measured on the ETDRS chart at a starting distance of 4 meters. The BCVA letter score ranges from 0 to 100 (best score), and a gain in BCVA from baseline indicates an improvement in visual acuity. For each participant, an average BCVA value was calculated across the three visits, and this averaged value was used to determine if the endpoint was met. The results were summarized as the percentage of participants per treatment arm who met the endpoint. The weighted estimates of the percentage of participants were based on the Cochran-Mantel Haenszel (CMH) weights stratified by baseline BCVA (<69 letters vs. =69 letters), baseline LLD (=33 letters and <33 letters), and region (U.S. and Canada vs. rest of the world). Treatment policy strategy and hypothetical strategy were applied to non-COVID-19 related and COVID-19 related intercurrent events, respectively. Missing data were not imputed. Invalid BCVA values were excluded. 95% confidence interval (CI) is a rounding of 95.03% CI.	Baseline, average of Weeks 40, 44, and 48
Secondary	Percentage of Participants With BCVA Snellen Equivalent of 20/40 or Better (BCVA =69 Letters) in the Study Eye Over Time	Best Corrected Visual Acuity (BCVA) was measured on the Early Treatment Diabetic Retinopathy Study (ETDRS) chart at a starting distance of 4 meters. The BCVA letter score ranges from 0 to 100 (best score), and a gain in BCVA letter score from baseline indicates an improvement in visual acuity. The weighted percentage of participants was based on the Cochran-Mantel Haenszel (CMH) weights stratified by baseline BCVA (<69 letters vs. =69 letters), baseline LLD (=33 letters and <33 letters), and region (U.S. and Canada vs. rest of the world; Asia and rest of the world were combined). Treatment policy strategy (i.e., all observed values used) and hypothetical strategy (i.e., all values censored after the occurrence of the intercurrent event) were applied to non-COVID-19 related and COVID-19 related intercurrent events, respectively. Missing data were not imputed. Invalid BCVA values were excluded from analysis. 95% confidence interval (CI) is a rounding of 95.03% CI.	Baseline, Weeks 4, 8, 12, 16, 20, 24, 28, 32, 36, 40, 44, 48, 52, 56, 60, 64, 68, 72, 76, 80, 84, 88, 92, 96, 100, 104, 108, and 112
Secondary	Percentage of Participants With BCVA Snellen Equivalent of 20/200 or Worse (BCVA =38 Letters) in the Study Eye Averaged Over Weeks 40, 44, and 48	BCVA was measured on the ETDRS chart at a starting distance of 4 meters. The BCVA letter score ranges from 0 to 100 (best score), and a gain in BCVA from baseline indicates an improvement in visual acuity. For each participant, an average BCVA value was calculated across the three visits, and this averaged value was used to determine if the endpoint was met. The results were summarized as the percentage of participants per treatment arm who met the endpoint. The weighted percentage of participants was based on the Cochran-Mantel Haenszel (CMH) weights stratified by baseline BCVA (=74 letters, 73-55 letters, and =54 letters), baseline LLD (=33 letters and <33 letters), and region (U.S. and Canada vs. rest of the world). Treatment policy strategy and hypothetical strategy were applied to non-COVID-19 related and COVID-19 related intercurrent events, respectively. Missing data were not imputed. Invalid BCVA values were excluded. 95% confidence interval (CI) is a rounding of 95.03% CI.	Baseline, average of Weeks 40, 44, and 48
Secondary	Percentage of Participants With BCVA Snellen Equivalent of 20/200 or Worse (BCVA =38 Letters) in the Study Eye Over Time	Best Corrected Visual Acuity (BCVA) was measured on the Early Treatment Diabetic Retinopathy Study (ETDRS) chart at a starting distance of 4 meters. The BCVA letter score ranges from 0 to 100 (best score), and a gain in BCVA letter score from baseline indicates an improvement in visual acuity. The weighted percentage of participants was based on the Cochran-Mantel Haenszel (CMH) weights stratified by baseline BCVA (=74 letters, 73-55 letters, and =54 letters), baseline LLD (=33 letters and <33 letters), and region (U.S. and Canada vs. rest of the world; Asia and rest of the world were combined). Treatment policy strategy (i.e., all observed values used) and hypothetical strategy (i.e., all values censored after the occurrence of the intercurrent event) were applied to non-COVID-19 related and COVID-19 related intercurrent events, respectively. Missing data were not imputed. Invalid BCVA values were excluded from analysis. 95% confidence interval (CI) is a rounding of 95.03% CI.	Baseline, Weeks 4, 8, 12, 16, 20, 24, 28, 32, 36, 40, 44, 48, 52, 56, 60, 64, 68, 72, 76, 80, 84, 88, 92, 96, 100, 104, 108, and 112
Secondary	Percentage of Participants in the Faricimab Arm on Once Every 8-Weeks, 12-Weeks, or 16-Weeks Treatment Intervals Among Those Completing Week 48	Percentages are based on the number of participants randomized to the faricimab arm who have not discontinued the study at Week 48. The treatment interval at a given visit is defined as the treatment interval decision followed at that visit. The 95% confidence interval (CI) is a rounding of 95.03% CI.	Week 48
Secondary	Percentage of Participants in the Faricimab Arm on Once Every 8-Weeks, 12-Weeks, or 16-Weeks Treatment Intervals Among Those Completing Week 60	Percentages are based on the number of participants randomized to the faricimab arm who have not discontinued the study at Week 60. The treatment interval at a given visit is defined as the treatment interval decision followed at that visit. The 95% confidence interval (CI) is a rounding of 95.03% CI.	Week 60
Secondary	Percentage of Participants in the Faricimab Arm on Once Every 8-Weeks, 12-Weeks, or 16-Weeks Treatment Intervals Among Those Completing Week 112	Percentages are based on the number of participants randomized to the faricimab arm who have not discontinued the study at Week 112. Treatment interval at a given visit is defined as the treatment interval decision followed at that visit. Treatment interval at Week 112 is calculated using data recorded at Week 108. The 95% confidence interval (CI) is a rounding of 95.03% CI.	Weeks 108 and 112
Secondary	Number of Study Drug Injections Received in the Study Eye Through Week 48		From Baseline through Week 48
Secondary	Number of Study Drug Injections Received in the Study Eye Through Week 60		From Baseline through Week 60
Secondary	Number of Study Drug Injections Received in the Study Eye Through Week 108		From Baseline through Week 108
Secondary	Change From Baseline in Central Subfield Thickness in the Study Eye Averaged Over Weeks 40, 44, and 48	Central subfield thickness (CST) was defined as the distance between the internal limiting membrane (ILM) and the retinal pigment epithelium (RPE) using optical coherence tomography (OCT), as assessed by the central reading center. For the Mixed Model of Repeated Measures (MMRM) analysis, the model adjusted for treatment group, visit, visit-by-treatment group interaction, baseline CST (continuous), baseline BCVA (=74 letters, 73-55 letters, and =54 letters), baseline LLD (<33 letters and =33 letters), and region (U.S. and Canada, Asia, and the rest of the world). An unstructured covariance structure was used. Treatment policy strategy (i.e., all observed values used) and hypothetical strategy (i.e., all values censored after the occurrence of the intercurrent event) were applied to non-COVID-19 related and COVID-19 related intercurrent events, respectively. Missing data were implicitly imputed by MMRM. 95% confidence interval (CI) is a rounding of 95.03% CI.	From Baseline through Week 48
Secondary	Change From Baseline in Central Subfield Thickness in the Study Eye Averaged Over Weeks 52, 56, and 60	Central subfield thickness (CST) was defined as the distance between the internal limiting membrane (ILM) and the retinal pigment epithelium (RPE) using optical coherence tomography (OCT), as assessed by the central reading center. For the Mixed Model of Repeated Measures (MMRM) analysis, the model adjusted for treatment group, visit, visit-by-treatment group interaction, baseline CST (continuous), baseline BCVA (=74 letters, 73-55 letters, and =54 letters), baseline LLD (<33 letters and =33 letters), and region (U.S. and Canada, Asia, and the rest of the world). An unstructured covariance structure was used. Treatment policy strategy (i.e., all observed values used) and hypothetical strategy (i.e., all values censored after the occurrence of the intercurrent event) were applied to non-COVID-19 related and COVID-19 related intercurrent events, respectively. Missing data were implicitly imputed by MMRM. 95% confidence interval (CI) is a rounding of 95.03% CI.	From Baseline through Week 60
Secondary	Change From Baseline in Central Subfield Thickness in the Study Eye Over Time	Central subfield thickness (CST) was defined as the distance between the internal limiting membrane (ILM) and the retinal pigment epithelium (RPE) using optical coherence tomography (OCT), as assessed by the central reading center. For the Mixed Model of Repeated Measures (MMRM) analysis, the model adjusted for treatment group, visit, visit-by-treatment group interaction, baseline CST (continuous), baseline BCVA (=74 letters, 73-55 letters, and =54 letters), baseline LLD (<33 letters and =33 letters), and region (U.S. and Canada, Asia, and the rest of the world). An unstructured covariance structure was used. Treatment policy strategy (i.e., all observed values used) and hypothetical strategy (i.e., all values censored after the occurrence of the intercurrent event) were applied to non-COVID-19 related and COVID-19 related intercurrent events, respectively. Missing data were implicitly imputed by MMRM. 95% confidence interval (CI) is a rounding of 95.03% CI.	Baseline, Weeks 4, 8, 12, 16, 20, 24, 28, 32, 36, 40, 44, 48, 52, 56, 60, 64, 68, 72, 76, 80, 84, 88, 92, 96, 100, 104, 108, and 112
Secondary	Percentage of Participants With Absence of Intraretinal Fluid in the Study Eye Over Time	Intraretinal fluid was measured using optical coherence tomography (OCT) in the central subfield (center 1 millimetre [mm]). The weighted estimates of the percentage of participants with absence of intraretinal fluid were based on the Cochran-Mantel Haenszel (CMH) weights stratified by baseline BCVA (=74 letters, 73-55 letters, and =54 letters), baseline LLD (=33 letters and <33 letters), and region (U.S. and Canada vs. rest of the world). Asia and rest of the world regions were combined due to a small number of enrolled participants. Treatment policy strategy (i.e., all observed values used) and hypothetical strategy (i.e., all values censored after the occurrence of the intercurrent event) were applied to non-COVID-19 related and COVID-19 related intercurrent events, respectively. Missing data were not imputed. 95% confidence interval (CI) is a rounding of 95.03% CI.	Baseline, Weeks 4, 8, 12, 16, 20, 24, 28, 32, 36, 40, 44, 48, 52, 56, 60, 104, 108, and 112
Secondary	Percentage of Participants With Absence of Subretinal Fluid in the Study Eye Over Time	Subretinal fluid was measured using optical coherence tomography (OCT) in the central subfield (center 1 mm). The weighted estimates of the percentage of participants with absence of subretinal fluid were based on the Cochran-Mantel Haenszel (CMH) weights stratified by baseline BCVA (=74 letters, 73-55 letters, and =54 letters), baseline LLD (=33 letters and <33 letters), and region (U.S. and Canada vs. rest of the world). Asia and rest of the world regions were combined due to a small number of enrolled participants. Treatment policy strategy (i.e., all observed values used) and hypothetical strategy (i.e., all values censored after the occurrence of the intercurrent event) were applied to non-COVID-19 related and COVID-19 related intercurrent events, respectively. Missing data were not imputed. 95% confidence interval (CI) is a rounding of 95.03% CI.	Baseline, Weeks 4, 8, 12, 16, 20, 24, 28, 32, 36, 40, 44, 48, 52, 56, 60, 104, 108, and 112
Secondary	Percentage of Participants With Absence of Intraretinal Fluid and Subretinal Fluid in the Study Eye Over Time	Intraretinal fluid and subretinal fluid were measured using optical coherence tomography (OCT) in the central subfield (center 1 millimetre [mm]). The weighted estimates of the percentage of participants with absence of intraretinal and subretinal fluid were based on the Cochran-Mantel Haenszel (CMH) weights stratified by baseline BCVA (=74 letters, 73-55 letters, and =54 letters), baseline LLD (=33 letters and <33 letters), and region (U.S. and Canada vs. rest of the world). Asia and rest of the world regions were combined due to a small number of enrolled participants. Treatment policy strategy (i.e., all observed values used) and hypothetical strategy (i.e., all values censored after the occurrence of the intercurrent event) were applied to non-COVID-19 related and COVID-19 related intercurrent events, respectively. Missing data were not imputed. 95% confidence interval (CI) is a rounding of 95.03% CI.	Baseline, Weeks 4, 8, 12, 16, 20, 24, 28, 32, 36, 40, 44, 48, 52, 56, 60, 104, 108, and 112
Secondary	Percentage of Participants With Absence of Pigment Epithelial Detachment in the Study Eye Over Time	Pigment epithelial detachment was measured using optical coherence tomography (OCT) in the central subfield (center 1 mm). The weighted estimates of the percentage of participants with absence of pigment epithelial detachment were based on the Cochran-Mantel Haenszel (CMH) weights stratified by baseline BCVA (=74 letters, 73-55 letters, and =54 letters), baseline LLD (=33 letters and <33 letters), and region (U.S. and Canada vs. rest of the world). Asia and rest of the world regions were combined due to a small number of enrolled participants. Treatment policy strategy (i.e., all observed values used) and hypothetical strategy (i.e., all values censored after the occurrence of the intercurrent event) were applied to non-COVID-19 related and COVID-19 related intercurrent events, respectively. Missing data were not imputed. 95% confidence interval (CI) is a rounding of 95.03% CI.	Baseline, Weeks 4, 8, 12, 16, 20, 24, 28, 32, 36, 40, 44, 48, 52, 56, 60, 104, 108, and 112
Secondary	Percentage of Participants With Absence of Intraretinal Cysts in the Study Eye Over Time		Up to 112 weeks
Secondary	Change From Baseline in Total Area of Choroidal Neovascularization Lesion in the Study Eye at Week 48	The total area of the choroidal neovascularization lesion in the study eye was evaluated by a central reading center using fundus fluorescein angiography (FFA). Assessments were censored following COVID-19 related intercurrent events. Baseline was defined as the last available measurement obtained on or prior to randomization.	Baseline and Week 48
Secondary	Change From Baseline in Total Area of Choroidal Neovascularization Lesion in the Study Eye at Week 112	The total area of the choroidal neovascularization lesion in the study eye was evaluated by a central reading center using fundus fluorescein angiography (FFA). Assessments were censored following COVID-19 related intercurrent events. Baseline was defined as the last available measurement obtained on or prior to randomization.	Baseline and Week 112
Secondary	Change From Baseline in Total Area of Choroidal Neovascularization Leakage in the Study Eye at Week 48	The total area of choroidal neovascularization leakage in the study eye was evaluated by a central reading center using fundus fluorescein angiography (FFA). Assessments were censored following COVID-19 related intercurrent events. Baseline was defined as the last available measurement obtained on or prior to randomization.	Baseline and Week 48
Secondary	Change From Baseline in Total Area of Choroidal Neovascularization Leakage in the Study Eye at Week 112	The total area of choroidal neovascularization leakage in the study eye was evaluated by a central reading center using fundus fluorescein angiography (FFA). Assessments were censored following COVID-19 related intercurrent events. Baseline was defined as the last available measurement obtained on or prior to randomization.	Baseline and Week 112
Secondary	Percentage of Participants With at Least One Adverse Event	This analysis of adverse events (AEs) includes both ocular and non-ocular (systemic) AEs. Multiple occurrences of the same AE in one individual are counted only once. Investigators sought information on AEs at each contact with the participants. All AEs were recorded and the investigator made an assessment of seriousness, severity, and causality of each AE. AEs of special interest included the following: Cases of potential drug-induced liver injury that include an elevated ALT or AST in combination with either an elevated bilirubin or clinical jaundice, as defined by Hy's Law; Suspected transmission of an infectious agent by the study drug; Sight-threatening AEs that cause a drop in visual acuity (VA) score =30 letters lasting more than 1 hour, require surgical or medical intervention to prevent permanent loss of sight, or are associated with severe intraocular inflammation (IOI).	From first dose of study drug through end of study (up to 112 weeks)
Secondary	Percentage of Participants With at Least One Ocular Adverse Event in the Study Eye or the Fellow Eye	This analysis of adverse events (AEs) only includes ocular AEs, which are categorized as having occurred either in the study eye or the fellow eye. Multiple occurrences of the same AE in one individual are counted only once. Investigators sought information on AEs at each contact with the participants. All AEs were recorded and the investigator made an assessment of seriousness, severity, and causality of each AE. Ocular AEs of special interest included the following: Suspected transmission of an infectious agent by the study drug; Sight-threatening AEs that cause a drop in visual acuity (VA) score =30 letters lasting more than 1 hour, require surgical or medical intervention to prevent permanent loss of sight, or are associated with severe intraocular inflammation (IOI).	From first dose of study drug through end of study (up to 112 weeks)
Secondary	Percentage of Participants With at Least One Non-Ocular Adverse Event	This analysis of adverse events (AEs) only includes non-ocular (systemic) AEs. Multiple occurrences of the same AE in one individual are counted only once. Investigators sought information on AEs at each contact with the participants. All AEs were recorded and the investigator made an assessment of seriousness, severity, and causality of each AE. The non-ocular AE of special interest was: Cases of potential drug-induced liver injury that include an elevated ALT or AST in combination with either an elevated bilirubin or clinical jaundice, as defined by Hy's Law.	From first dose of study drug through end of study (up to 112 weeks)
Secondary	Plasma Concentration of Faricimab Over Time	Faricimab concentration in plasma was determined using a validated immunoassay method.	Pre-dose at Baseline, Weeks 4, 16, 20, 48, 76, and 112
Secondary	Percentage of Participants Who Tested Positive for Treatment-Emergent Anti-Drug Antibodies Against Faricimab During the Study	Anti-drug antibodies (ADAs) against fariciamb were detected in plasma using a validated bridging enzyme-linked immunosorbent assay (ELISA). The percentage of participants with treatment-emergent ADA-positive samples includes post-baseline evaluable participants with at least one treatment-induced (defined as having an ADA-negative sample or missing sample at baseline and any positive post-baseline sample) or treatment-boosted (defined as having an ADA-positive sample at baseline and any positive post-baseline sample with a titer that is equal to or greater than 4-fold baseline titer) ADA-positive sample during the study treatment period.	Pre-dose at Baseline, Weeks 4, 20, 48, 76, and 112