A Study to Evaluate the Efficacy and Safety of Faricimab in Participants With Macular Edema Secondary to Central Retinal or Hemiretinal Vein Occlusion

Macular Edema Clinical Trial

— COMINO  

Official title:

A Phase III, Multicenter, Randomized, Double-Masked, Active Comparator-Controlled Study to Evaluate the Efficacy and Safety of Faricimab in Patients With Macular Edema Secondary to Central Retinal or Hemiretinal Vein Occlusion

Clinical Trial Details — Status: Completed

Administrative data

• NCT number: NCT04740931
• Other study ID #: GR41986
• Secondary ID: 2020-000441-13
• Status: Completed
• Phase: Phase 3
• Start date: March 2, 2021
• Est. completion date: July 12, 2023

Study information

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

Clinical Trial Summary

This is a Phase III, multicenter, randomized, double-masked, active comparator-controlled, parallel-group study evaluating the efficacy, safety, and pharmacokinetics of faricimab administered by intravitreal (IVT) injection at 4-week intervals until Week 24, followed by a double-masked period of study without active control to evaluate faricimab administered according to a personalized treatment interval (PTI) dosing regimen in patients with macular edema due to central retinal vein occlusion (CRVO) or hemiretinal vein occlusion (HRVO).

Recruitment information / eligibility

• Status: Completed
• Enrollment: 729
• Est. completion date: July 12, 2023
• Est. primary completion date: August 9, 2022
• Accepts healthy volunteers: No
• Gender: All
• Age group: 18 Years and older

Eligibility

Inclusion Criteria:

• Foveal center-involved macular edema due to central retinal vein occlusion (CRVO) or hemiretinal vein occlusion (HRVO), diagnosed no longer than 4 months prior to the screening visit

• Best-corrected visual acuity (BCVA) of 73 to 19 letters, inclusive (20/40 to 20/400 approximate Snellen equivalent)

• Sufficiently clear ocular media and adequate pupillary dilatation to allow acquisition of good quality retinal images to confirm diagnosis

• For women of childbearing potential: agreement to remain abstinent or use contraception, and agreement to refrain from donating eggs during the treatment period and for 3 months after the final dose of study treatment

Exclusion Criteria:

• Any major illness or major surgical procedure within 1 month before screening

• Uncontrolled blood pressure

• Stroke (cerebral vascular accident) or myocardial infarction within 6 months prior to Day 1

• Pregnant or breastfeeding, or intending to become pregnant during the study

Ocular Exclusion Criteria for Study Eye:

• History of previous episodes of macular edema due to RVO or persistent macular edema due to RVO diagnosed more than 4 months before screening

• Any current ocular condition which, in the opinion of the investigator, is currently causing or could be expected to contribute to irreversible vision loss due to a cause other than macular edema due to RVO in the study eye (e.g., ischemic maculopathy, Irvine-Gass syndrome, foveal atrophy, foveal fibrosis, pigment abnormalities, dense subfoveal hard exudates, or other non-retinal conditions)

• Macular laser (focal/grid) in the study eye at any time prior to Day 1

• Panretinal photocoagulation in the study eye within 3 months prior to Day 1 or anticipated within 3 months of study start on Day 1

• Any prior or current treatment for macular edema; macular neovascularization, including diabetic macular edema (DME) and neovascular age-related macular degeneration (nAMD); and vitreomacular-interface abnormalities, including, but not restricted to, IVT treatment with anti-VEGF, steroids, tissue plasminogen activator, ocriplasmin, C3F8, air or periocular injection

• Any prior intervention with verteporfin photodynamic therapy, diode laser, transpupillary thermotherapy, or vitreo-retinal surgery including sheathotomy

• Any prior steroid implant use including dexamethasone intravitreal implant (Ozurdex) and fluocinolone acetonide intravitreal implant (Iluvien)

Ocular Exclusion Criteria for Both Eyes:

• Prior IVT administration of faricimab in either eye

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

• Active periocular, ocular or intraocular inflammation or infection (including suspected) in either eye on Day 1

Related Conditions & MeSH terms

• Central Retinal Vein Occlusion
• Edema
• Hemiretinal Vein Occlusion
• Macular Edema
• Retinal Vein Occlusion

Intervention

Drug:
• Faricimab
Faricimab will be administered by intravitreal (IVT) injection as specified in each treatment arm.
• Aflibercept
Aflibercept 2 mg will be administered by IVT injection once every 4 weeks (Q4W) from Day 1 through Week 20 (a total of 6 injections).

Procedure:
• Sham Procedure
The sham is a procedure that mimics an IVT 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
Argentina	Fundacion Zambrano	Caba
Argentina	Centro Oftalmológico Dr. Charles S.A.	Capital Federal
Argentina	Hospital Italiano; Ophtalmology	Capital Federal
Argentina	Oftalmos	Capital Federal
Argentina	Buenos Aires Mácula	Ciudad Autonoma Buenos Aires
Argentina	Oftar	Mendoza
Argentina	Centro Oftalmólogos Especialistas	Rosario
Argentina	Grupo Laser Vision	Rosario
Argentina	Organizacion Medica de Investigacion	San Nicolás
Australia	Eyeclinic Albury Wodonga	Albury	New South Wales
Australia	Centre For Eye Research Australia	East Melbourne	Victoria
Australia	The Lions Eye Institute	Nedlands	Western Australia
Australia	Retina Specialists Victoria	Rowville	Victoria
Australia	Strathfield Retina Clinic	Strathfield	New South Wales
Australia	Save Sight Institute	Sydney	New South Wales
Australia	Sydney Retina Clinic and Day Surgery	Sydney	New South Wales
Austria	LKH-Univ.Klinikum Graz; Universitäts-Augenklinik	Graz
Austria	Medizinische Universität Wien; Universitätsklinik für Augenheilkunde und Optometrie	Wien
Brazil	Hospital de Olhos de Aparecida - HOA	Aparecida de Goiania	GO
Brazil	Botelho Hospital da Visao	Blumenau	SC
Brazil	Hospital das Clinicas - UFRGS	Porto Alegre	RS
Brazil	Universidade Federal de Sao Paulo - UNIFESP*X; Oftalmologia	Sao Paulo	SP
Brazil	Hosp de Olhos de Sorocaba	Sorocaba	SP
China	Beijing Hospital of Ministry of Health	Beijing
China	The Second Hospital of Jilin University	Changchun
China	West China Hospital, Sichuan University	Chengdu
China	Zhongshan Ophthalmic Center, Sun Yat-sen University	Guangzhou City
China	The Second Affiliated Hospital of Zhejiang University School of Medicine	Hangzhou City
China	The 2nd Affiliated Hospital of Harbin Medical University	Harbin
China	Shanghai First People's Hospital	Shanghai
China	Shanghai Tenth People's Hospital	Shanghai
China	He Eye Specialist Shenyang Hospital	Shenyang City
China	The University of Hong Kong-Shenzhen Hospital; Local Ethic Committee	Shenzhen City
China	Tianjin Eye Hospital	Tianjin City
China	Tianjin Medical University Eye Hospital	Tianjin City
China	Eye Hospital, Wenzhou Medical University	Wenzhou City
China	Renmin Hospital of Wuhan University	Wuhan
China	Henan Provincial Eye Hosptial	Zhengzhou
Czechia	AXON Clinical	Prague
Czechia	General Teaching Hospital Prague; Ophthalmology clinic	Prague
France	Chi De Creteil; Ophtalmologie	Creteil
France	Centre Ophtalmologique; Imagerie et laser	Paris
France	Hopital Lariboisiere; Ophtalmologie	Paris
France	Centres Ophtalmologique St Exupéry; Ophtalmologie	St Cyr Sur Loire
Germany	Internationale Innovative Ophthalmochirurgie GbR; c/o Makula-Netzhaut-Zentrum Breyer Kaymak Klabe	Düsseldorf-Oberkassel
Germany	Universitätsklinikum Freiburg, Klinik für Augenheilkunde	Freiburg
Germany	Klinikum der Stadt Ludwigshafen am Rhein gGmbH; Augenklinik	Ludwigshafen
Hong Kong	Queen Mary Hospital; Department of Ophthalmology	Hong Kong
Hong Kong	Hong Kong Eye Hospital; CUHK Eye Centre	Mongkok
Hungary	Bajcsy-Zsilinszky Hospital	Budapest
Hungary	Budapest Retina Associates Kft.	Budapest
Hungary	Debreceni Egyetem Klinikai Kozpont; Szemeszeti Klinika	Debrecen
Hungary	Szegedi Tudományegyetem ÁOK; Department of Ophtalmology	Szeged
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	Irccs Ospedale San Raffaele;U.O. Oculistica	Milano	Lombardia
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	Nagoya City University Hospital	Aichi
Japan	Nagoya University Hospital	Aichi
Japan	Sugita Eye Hospital	Aichi
Japan	Toho University Sakura Medical Center	Chiba
Japan	Hayashi Eye Hospital	Fukuoka
Japan	Kurume University Hospital	Fukuoka
Japan	Fukushima Medical University Hospital	Fukushima
Japan	Asahikawa Medical University 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	Mie University Hospital	Mie
Japan	Shinshu University Hospital	Nagano
Japan	Kansai Medical University Medical Center	Osaka
Japan	Osaka Metropolitan University Hospital	Osaka
Japan	Tokyo Medical University Hachioji Medical Center	Tokyo
Japan	Tokyo Women's Medical University Hospital	Tokyo
Korea, Republic of	Pusan National University Hospital	Busan
Korea, Republic of	Yeungnam University Medical Center	Daegu
Korea, Republic of	Seoul National University Bundang Hospital	Seongnam-si
Korea, Republic of	Asan Medical Center	Seoul
Korea, Republic of	Kim's Eye Hospital	Seoul
Korea, Republic of	Kyung Hee University Hospital	Seoul
Korea, Republic of	Samsung Medical Center	Seoul
Korea, Republic of	Seoul National University Hospital	Seoul
Poland	Szpital sw. Lukasza	Bielsko-Biala
Poland	OFTALMIKA Sp. z o.o	Bydgoszcz
Poland	Specjalistyczny O?rodek Okulistyczny Oculomedica	Bydgoszcz
Poland	Szpital Specjalistyczny nr 1; Oddzial Okulistyki	Bytom
Poland	Dobry Wzrok Sp Z O O	Gda?sk
Poland	Optimum Profesorskie Centrum Okulistyki	Gda?sk
Poland	Poradnia Okulistyczna i Salon Optyczny w Gliwicach- PRYZMAT	Gliwice
Poland	Gabinet Okulistyczny Prof Edward Wylegala	Katowice
Poland	SP ZOZ Szpital Uniwersytecki w Krakowie Oddzia? Kliniczny Okulistyki i Onkologii Okulistycznej	Krakow
Poland	Centrum Medyczne Dietla 19 Sp. Z O.O.	Kraków
Poland	MT Medic Krosno	Krosno
Poland	O?rodek Chirurgii Oka Prof. Zagórskiego Na??czów	Na??czów
Poland	Centrum Medyczne Pulawska SP. z o.o.	Piaseczno
Poland	Lens Clinic	Rybnik
Poland	Caminomed	Tarnowskie Góry
Poland	Centrum Zdrowia MDM	Warszawa
Poland	SPEKTRUM Osrodek Okulistyki Klinicznej	Wroclaw
Portugal	Centro Hospitalar E Universitário de Coimbra EPE - Serviço Oftalmologia; Serviço Oftalmologia	Coimbra
Portugal	Espaco Medico Coimbra	Coimbra
Portugal	Hospital de Santa Maria; Servico de Oftalmologia	Lisboa
Russian Federation	Intersec Research and Technology Complex ?Eye Microsurgery? n.a. S.N. Fyodorov; Cheboksary Branch	Cheboksary	Marij EL
Russian Federation	FSBI ?Scientific Research Institute of Eye Diseases? of Russian Academy of medical Sciences	Moscow	Moskovskaja Oblast
Russian Federation	1 Saint-Petersburg St. Med. University named after academician I.P.Pavlov; Chair of ophathalmology	Sankt-peterburg	Sankt Petersburg
Russian Federation	Medical Military Academy n.a S.M.Kirov	St.Petersburg	Sankt Petersburg
Russian Federation	Clinic Optimed	UFA	Baskortostan
Singapore	Singapore Eye Research Institute	Singapore
Singapore	Tan Tock Seng Hospital; Ophthalmology Department	Singapore
Spain	Centro de Oftalmologia Barraquer; Servicio Oftalmologia	Barcelona
Spain	Hospital Clinic de Barcelona; Consultas Externas Oftalmologia	Barcelona
Spain	Hospital de Santa Creu I Sant Pau; Servicio de Oftalmologia	Barcelona
Spain	Hospital Universitario de Bellvitge	Hospitalet de Llobregat	Barcelona
Spain	Hospital Universitario Puerta de Hierro	Majadahonda	Madrid
Spain	Complejo Hospitalario de Navarra; Servicio de oftalmologia	Pamplona	Navarra
Spain	Hospital General de Catalunya	San Cugat Del Valles	Barcelona
Spain	Hospital Universitario Rio Hortega; Servicio de Oftalmologia	Valladolid
Taiwan	Changhua Christian Hospital; Department of Ophthalmology	Changhua
Taiwan	Taipei Veterans General Hospital; Ophthalmology	Taipei
Taiwan	Chang Gung Medical Foundation - Linkou; Ophthalmology	Taoyuan
United Kingdom	Belfast Health and Social Care Trust, ROYAL VICTORIA HOSPITAL	Belfast
United Kingdom	Birmingham Midland Eye Centre	Birmingham
United Kingdom	Opthalmology Research Office	Bradford
United Kingdom	Bristol Eye Hospital;Retinal Treatment and Research Unit	Bristol
United Kingdom	University Hospital of Wales	Cardiff
United Kingdom	St James University Hospital	Leeds
United Kingdom	Royal Liverpool University Hospital; St Paul's Clinical Eye Research Centre	Liverpool
United Kingdom	Central Middlesex Hospital	London
United Kingdom	Maidstone and Tunbridge Wells NHS Trust	Maidstone
United Kingdom	Royal Victoria Infirmary	Newcastle upon Tyne
United States	Retina Consultants of Hawaii	'Aiea	Hawaii
United States	Retina Res Institute of Texas	Abilene	Texas
United States	Southeast Retina Center	Augusta	Georgia
United States	Austin Clinical Research LLC	Austin	Texas
United States	Austin Retina Associates	Austin	Texas
United States	Johns Hopkins Med; Wilmer Eye Inst	Baltimore	Maryland
United States	Retina & Vitreous of Texas	Bellaire	Texas
United States	Retinal Diagnostic Center	Campbell	California
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 PC	Colorado Springs	Colorado
United States	Advanced Research	Coral Springs	Florida
United States	Texas Retina Associates	Dallas	Texas
United States	Rand Eye	Deerfield Beach	Florida
United States	VitreoRetinal Surgery, PLLC.; DBA Retina Consultants of Minnesota	Edina	Minnesota
United States	Retina Associated Ltd	Elmhurst	Illinois
United States	The Retina Partners	Encino	California
United States	Retina Consultants of Orange County	Fullerton	California
United States	Charles Retina Institute	Germantown	Tennessee
United States	Cumberland Valley Retina PC	Hagerstown	Maryland
United States	Long Is. Vitreoretinal Consult	Hauppauge	New York
United States	Charleston Neuroscience Institute	Ladson	South Carolina
United States	Colorado Retina Associates, PC	Lakewood	Colorado
United States	Retina Associates	Lenexa	Kansas
United States	Retina Vit Surgeons/Central NY	Liverpool	New York
United States	Piedmont Eye Center	Lynchburg	Virginia
United States	Georgia Retina PC	Marietta	Georgia
United States	Florida Eye Associates	Melbourne	Florida
United States	Barnet Dulaney Perkins Eye Center	Mesa	Arizona
United States	West Virginia University Eye Institute	Morgantown	West Virginia
United States	Northern California Retina Vitreous Associates	Mountain View	California
United States	Tennessee Retina PC	Nashville	Tennessee
United States	University Retina and Macula Associates, PC	Oak Forest	Illinois
United States	East Bay Retina Consultants	Oakland	California
United States	California Eye Specialists Medical group Inc.	Pasadena	California
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	Sierra Eye Associates	Reno	Nevada
United States	Retina Assoc of Western NY	Rochester	New York
United States	Assoc Retinal Consultants PC	Royal Oak	Michigan
United States	Retina Vitreous Assoc of FL	Saint Petersburg	Florida
United States	Retina Associates of Utah, PLLC	Salt Lake City	Utah
United States	West Coast Retina Medical Group	San Francisco	California
United States	Cascade Medical Research Institute LLC	Springfield	Oregon
United States	Prairie Retina Center	Springfield	Illinois
United States	Retina Associates of Florida, LLC	Tampa	Florida
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
United States	Palmetto Retina Center	West Columbia	South Carolina
United States	Strategic Clinical Research Group, LLC	Willow Park	Texas

Sponsors (2)

Lead Sponsor	Collaborator
Hoffmann-La Roche	Chugai Pharmaceutical

Countries where clinical trial is conducted

United States,  Argentina,  Australia,  Austria,  Brazil,  China,  Czechia,  France,  Germany,  Hong Kong,  Hungary,  Israel,  Italy,  Japan,  Korea, Republic of,  Poland,  Portugal,  Russian Federation,  Singapore,  Spain,  Taiwan,  United Kingdom, 

Outcome

Type	Measure	Description	Time frame	Safety issue
Primary	Part 1: Change From Baseline in Best Corrected Visual Acuity (BCVA) in the Study Eye at Week 24	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 included the categorical covariates of treatment arm, visit, visit-by-treatment arm interaction, baseline BCVA (continuous), and randomization stratification factors [baseline BCVA (=55, <55->34, and =34 letters), and region (U.S. and Canada, Asia, and rest of the world)] as fixed effects. An unstructured covariance structure was used. Missing data were implicitly imputed by MMRM model assuming missing at random. Treatment policy strategy (i.e., all observed values used) was applied to all intercurrent events (discontinuation of treatment due to AEs or lack of efficacy, use of prohibited therapy). 95% CI is a rounding of 95.03% CI.	From Baseline through Week 24
Secondary	Part 1: Change From Baseline in BCVA in the Study Eye at Specified Timepoints Through Week 24	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 included the categorical covariates of treatment arm, visit, visit-by-treatment arm interaction, baseline BCVA (continuous), and randomization stratification factors [baseline BCVA (=55, <55->34, and =34 letters), and region (U.S. and Canada, Asia, and rest of the world)] as fixed effects. An unstructured covariance structure was used. Missing data were implicitly imputed by MMRM model assuming missing at random. Treatment policy strategy (i.e., all observed values used) was applied to all intercurrent events (discontinuation of treatment due to AEs or lack of efficacy, use of prohibited therapy). 95% CI is a rounding of 95.03% CI.	Baseline, Weeks 4, 8, 12, 16, 20, and 24
Secondary	Part 1: Percentage of Participants Gaining =15 Letters in BCVA From Baseline in the Study Eye at Week 24	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 weighted percentage of participants was estimated based on the Cochran-Mantel Haenszel (CMH) weights stratified by randomization stratification factors [baseline BCVA (=55, <55->34, and =34 letters), and region (U.S. and Canada, Asia, and rest of the world)]. All observed values were used regardless of the occurrence of an intercurrent event (discontinuation of treatment due to AEs or lack of efficacy, use of prohibited therapy). Missing assessments were imputed by last observation carried forward. 95% CI is a rounding of 95.03% CI.	From Baseline through Week 24
Secondary	Part 1: Percentage of Participants Gaining =15 Letters in BCVA From Baseline in the Study Eye at Specified Timepoints Through Week 24	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 weighted percentage of participants was estimated based on the Cochran-Mantel Haenszel (CMH) weights stratified by randomization stratification factors [baseline BCVA (=55, <55->34, and =34 letters), and region (U.S. and Canada, Asia, and rest of the world)]. All observed values were used regardless of the occurrence of an intercurrent event (discontinuation of treatment due to AEs or lack of efficacy, use of prohibited therapy). Missing assessments were imputed by last observation carried forward. 95% CI is a rounding of 95.03% CI.	Baseline, Weeks 4, 8, 12, 16, 20, and 24
Secondary	Part 1: Percentage of Participants Gaining =10 Letters in BCVA From Baseline in the Study Eye at Specified Timepoints Through Week 24	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 weighted percentage of participants was estimated based on the Cochran-Mantel Haenszel (CMH) weights stratified by randomization stratification factors [baseline BCVA (=55, <55->34, and =34 letters), and region (U.S. and Canada, Asia, and rest of the world)]. All observed values were used regardless of the occurrence of an intercurrent event (discontinuation of treatment due to AEs or lack of efficacy, use of prohibited therapy). Missing assessments were imputed by last observation carried forward. 95% CI is a rounding of 95.03% CI.	Baseline, Weeks 4, 8, 12, 16, 20, and 24
Secondary	Part 1: Percentage of Participants Gaining =5 Letters in BCVA From Baseline in the Study Eye at Specified Timepoints Through Week 24	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 weighted percentage of participants was estimated based on the Cochran-Mantel Haenszel (CMH) weights stratified by randomization stratification factors [baseline BCVA (=55, <55->34, and =34 letters), and region (U.S. and Canada, Asia, and rest of the world)]. All observed values were used regardless of the occurrence of an intercurrent event (discontinuation of treatment due to AEs or lack of efficacy, use of prohibited therapy). Missing assessments were imputed by last observation carried forward. 95% CI is a rounding of 95.03% CI.	Baseline, Weeks 4, 8, 12, 16, 20, and 24
Secondary	Part 1: Percentage of Participants Gaining >0 Letters in BCVA From Baseline in the Study Eye at Specified Timepoints Through Week 24	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 weighted percentage of participants was estimated based on the Cochran-Mantel Haenszel (CMH) weights stratified by randomization stratification factors [baseline BCVA (=55, <55->34, and =34 letters), and region (U.S. and Canada, Asia, and rest of the world)]. All observed values were used regardless of the occurrence of an intercurrent event (discontinuation of treatment due to AEs or lack of efficacy, use of prohibited therapy). Missing assessments were imputed by last observation carried forward. 95% CI is a rounding of 95.03% CI.	Baseline, Weeks 4, 8, 12, 16, 20, and 24
Secondary	Part 1: Percentage of Participants Avoiding a Loss of =15 Letters in BCVA From Baseline in the Study Eye at Specified Timepoints Through Week 24	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 weighted percentage of participants was estimated based on the Cochran-Mantel Haenszel (CMH) weights stratified by randomization stratification factors [baseline BCVA (=55, <55->34, and =34 letters), and region (U.S. and Canada, Asia, and rest of the world)]. All observed values were used regardless of the occurrence of an intercurrent event (discontinuation of treatment due to AEs or lack of efficacy, use of prohibited therapy). Missing assessments were imputed by last observation carried forward. 95% CI is a rounding of 95.03% CI.	Baseline, Weeks 4, 8, 12, 16, 20, and 24
Secondary	Part 1: Percentage of Participants Avoiding a Loss of =10 Letters in BCVA From Baseline in the Study Eye at Specified Timepoints Through Week 24	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 weighted percentage of participants was estimated based on the Cochran-Mantel Haenszel (CMH) weights stratified by randomization stratification factors [baseline BCVA (=55, <55->34, and =34 letters), and region (U.S. and Canada, Asia, and rest of the world)]. All observed values were used regardless of the occurrence of an intercurrent event (discontinuation of treatment due to AEs or lack of efficacy, use of prohibited therapy). Missing assessments were imputed by last observation carried forward. 95% CI is a rounding of 95.03% CI.	Baseline, Weeks 4, 8, 12, 16, 20, and 24
Secondary	Part 1: Percentage of Participants Avoiding a Loss of =5 Letters in BCVA From Baseline in the Study Eye at Specified Timepoints Through Week 24	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 weighted percentage of participants was estimated based on the Cochran-Mantel Haenszel (CMH) weights stratified by randomization stratification factors [baseline BCVA (=55, <55->34, and =34 letters), and region (U.S. and Canada, Asia, and rest of the world)]. All observed values were used regardless of the occurrence of an intercurrent event (discontinuation of treatment due to AEs or lack of efficacy, use of prohibited therapy). Missing assessments were imputed by last observation carried forward. 95% CI is a rounding of 95.03% CI.	Baseline, Weeks 4, 8, 12, 16, 20, and 24
Secondary	Part 1: Percentage of Participants Achieving =84 Letters in BCVA (20/20 Snellen Equivalent) in the Study Eye at Specified Timepoints Through Week 24	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 weighted percentage of participants was estimated based on the Cochran-Mantel Haenszel (CMH) weights stratified by randomization stratification factors [baseline BCVA (=55, <55->34, and =34 letters), and region (U.S. and Canada, Asia, and rest of the world)]. All observed values were used regardless of the occurrence of an intercurrent event (discontinuation of treatment due to AEs or lack of efficacy, use of prohibited therapy). Missing assessments were imputed by last observation carried forward. 95% CI is a rounding of 95.03% CI.	Baseline, Weeks 4, 8, 12, 16, 20, and 24
Secondary	Part 1: Percentage of Participants Achieving =69 Letters in BCVA (20/40 or Better Snellen Equivalent) in the Study Eye at Specified Timepoints Through Week 24	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 weighted percentage of participants was estimated based on the Cochran-Mantel Haenszel (CMH) weights stratified by randomization stratification factors [baseline BCVA (=55, <55->34, and =34 letters), and region (U.S. and Canada, Asia, and rest of the world)]. All observed values were used regardless of the occurrence of an intercurrent event (discontinuation of treatment due to AEs or lack of efficacy, use of prohibited therapy). Missing assessments were imputed by last observation carried forward. 95% CI is a rounding of 95.03% CI.	Baseline, Weeks 4, 8, 12, 16, 20, and 24
Secondary	Part 1: Percentage of Participants With =38 Letters in BCVA (20/200 or Worse Snellen Equivalent) in the Study Eye at Specified Timepoints Through Week 24	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 weighted percentage of participants was estimated based on the Cochran-Mantel Haenszel (CMH) weights stratified by baseline BCVA (>38 and =38 letters) and region (U.S. and Canada, Asia, and rest of the world). All observed values were used regardless of the occurrence of an intercurrent event (discontinuation of treatment due to AEs or lack of efficacy, use of prohibited therapy). Missing assessments were imputed by last observation carried forward. 95% CI is a rounding of 95.03% CI.	Baseline, Weeks 4, 8, 12, 16, 20, and 24
Secondary	Part 1: Change From Baseline in Central Subfield Thickness in the Study Eye at Specified Timepoints Through Week 24	Central subfield thickness (CST) was defined as the distance between the internal limiting membrane (ILM) and the Bruch's membrane (BM) using optical coherence tomography (OCT), as assessed by the central reading center. The Mixed Model of Repeated Measures (MMRM) analysis included the categorical covariates of treatment arm, visit, visit-by-treatment arm interaction, baseline CST (continuous), and randomization stratification factors [baseline BCVA (=55, <55->34, and =34 letters), and region (U.S. and Canada, Asia, and rest of the world)] as fixed effects. An unstructured covariance structure was used. Missing data were implicitly imputed by MMRM model assuming missing at random. Treatment policy strategy (i.e., all observed values used) was applied to all intercurrent events (discontinuation of treatment due to AEs or lack of efficacy, use of prohibited therapy). 95% CI is a rounding of 95.03% CI.	Baseline, Weeks 4, 8, 12, 16, 20, and 24
Secondary	Part 1: Percentage of Participants With Absence of Macular Edema in the Study Eye at Specified Timepoints Through Week 24	Absence of diabetic macular edema was defined as achieving a central subfield thickness of <325 microns in the study eye. Central subfield thickness was defined as the distance between the internal limiting membrane (ILM) and Bruch's membrane (BM) as assessed by a central reading center. The weighted percentage of participants was estimated based on the Cochran-Mantel Haenszel (CMH) weights stratified by randomization stratification factors [baseline BCVA (=55, <55->34, and =34 letters), and region (U.S. and Canada, Asia, and rest of the world)]. All observed values were used regardless of the occurrence of an intercurrent event (discontinuation of treatment due to AEs or lack of efficacy, use of prohibited therapy). Missing assessments were imputed by last observation carried forward. 95% CI is a rounding of 95.03% CI.	Baseline, Weeks 4, 8, 12, 16, 20, and 24
Secondary	Part 1: Percentage of Participants With Absence of Intraretinal Fluid in the Study Eye at Specified Timepoints Through Week 24	Intraretinal fluid was measured in the study eye using optical coherence tomography (OCT) in the central subfield (center 1 mm) by a central reading center. The weighted percentage of participants was estimated based on the Cochran-Mantel Haenszel (CMH) weights stratified by randomization stratification factors [baseline BCVA (=55, <55->34, and =34 letters), and region (U.S. and Canada, Asia, and rest of the world)]. All observed values were used regardless of the occurrence of an intercurrent event (discontinuation of treatment due to AEs or lack of efficacy, use of prohibited therapy). Missing assessments were imputed by last observation carried forward. 95% CI is a rounding of 95.03% CI.	Baseline, Weeks 4, 8, 12, 16, 20, and 24
Secondary	Part 1: Percentage of Participants With Absence of Subretinal Fluid in the Study Eye at Specified Timepoints Through Week 24	Subretinal fluid was measured in the study eye using optical coherence tomography (OCT) in the central subfield (center 1 mm) by a central reading center. The weighted percentage of participants was estimated based on the Cochran-Mantel Haenszel (CMH) weights stratified by randomization stratification factors [baseline BCVA (=55, <55->34, and =34 letters), and region (U.S. and Canada, Asia, and rest of the world)]. All observed values were used regardless of the occurrence of an intercurrent event (discontinuation of treatment due to AEs or lack of efficacy, use of prohibited therapy). Missing assessments were imputed by last observation carried forward. 95% CI is a rounding of 95.03% CI.	Baseline, Weeks 4, 8, 12, 16, 20, and 24
Secondary	Part 1: Percentage of Participants With Absence of Intraretinal Fluid and Subretinal Fluid in the Study Eye at Specified Timepoints Through Week 24	Intraretinal fluid and subretinal fluid were measured in the study eye using optical coherence tomography (OCT) in the central subfield (center 1 mm) by a central reading center. The weighted percentage of participants was estimated based on the Cochran-Mantel Haenszel (CMH) weights stratified by randomization stratification factors [baseline BCVA (=55, <55->34, and =34 letters), and region (U.S. and Canada, Asia, and rest of the world)]. All observed values were used regardless of the occurrence of an intercurrent event (discontinuation of treatment due to AEs or lack of efficacy, use of prohibited therapy). Missing assessments were imputed by last observation carried forward. 95% CI is a rounding of 95.03% CI.	Baseline, Weeks 4, 8, 12, 16, 20, and 24
Secondary	Part 1: Change From Baseline in National Eye Institute 25-Item Visual Functioning Questionnaire (NEI VFQ-25) Composite Score at Week 24	The NEI VFQ-25 captures a patient's perception of vision-related functioning and vision-related quality of life. The core measure includes 25 items that comprise 11 vision-related subscales and 1 item on general health. The composite score ranges from 0 to 100, with higher scores indicating better vision-related functioning. For the ANCOVA analysis, the model uses the non-missing change from baseline in BCVA at Weeks 24 as the response variables adjusted for the treatment group, baseline NEI VFQ-25 Composite Score (continuous), baseline BCVA score (=55 and =54 letters) and region (U.S. and Canada, Asia, and the rest of the world). Observed NEI VFQ-25 assessments were used regardless of the occurrence of intercurrent events. Missing data were not imputed. 95% CI is a rounding of 95.03% CI.	Baseline and Week 24
Secondary	Parts 1 and 2: Change From Baseline in BCVA in the Study Eye at Specified Timepoints Through Week 72		Baseline and every 4 weeks from Week 4 to Week 72
Secondary	Parts 1 and 2: Percentage of Participants Gaining =15 Letters in BCVA From Baseline in the Study Eye at Specified Timepoints Through Week 72		Baseline and every 4 weeks from Week 4 to Week 72
Secondary	Parts 1 and 2: Percentage of Participants Gaining =10 Letters in BCVA From Baseline in the Study Eye at Specified Timepoints Through Week 72		Baseline and every 4 weeks from Week 4 to Week 72
Secondary	Parts 1 and 2: Percentage of Participants Gaining =5 Letters in BCVA From Baseline in the Study Eye at Specified Timepoints Through Week 72		Baseline and every 4 weeks from Week 4 to Week 72
Secondary	Parts 1 and 2: Percentage of Participants Gaining >0 Letters in BCVA From Baseline in the Study Eye at Specified Timepoints Through Week 72		Baseline and every 4 weeks from Week 4 to Week 72
Secondary	Parts 1 and 2: Percentage of Participants Avoiding a Loss of =15 Letters in BCVA From Baseline in the Study Eye at Specified Timepoints Through Week 72		Baseline and every 4 weeks from Week 4 to Week 72
Secondary	Parts 1 and 2: Percentage of Participants Avoiding a Loss of =10 Letters in BCVA From Baseline in the Study Eye at Specified Timepoints Through Week 72		Baseline and every 4 weeks from Week 4 to Week 72
Secondary	Parts 1 and 2: Percentage of Participants Avoiding a Loss of =5 Letters in BCVA From Baseline in the Study Eye at Specified Timepoints Through Week 72		Baseline and every 4 weeks from Week 4 to Week 72
Secondary	Parts 1 and 2: Percentage of Participants Achieving =84 Letters in BCVA (20/20 Snellen Equivalent) in the Study Eye at Specified Timepoints Through Week 72		Every 4 weeks from Week 4 to Week 72
Secondary	Parts 1 and 2: Percentage of Participants Achieving =69 Letters in BCVA (20/40 or Better Snellen Equivalent) in the Study Eye at Specified Timepoints Through Week 72		Every 4 weeks from Week 4 to Week 72
Secondary	Parts 1 and 2: Percentage of Participants With =38 Letters in BCVA (20/200 or Worse Snellen Equivalent) in the Study Eye at Specified Timepoints Through Week 72		Every 4 weeks from Week 4 to Week 72
Secondary	Parts 1 and 2: Change From Baseline in NEI VFQ-25 Questionnaire Composite Score at Specified Timepoints Through Week 72		Baseline, Weeks 24, 48, and 72
Secondary	Parts 1 and 2: Change From Baseline in Central Subfield Thickness in the Study Eye at Specified Timepoints Through Week 72		Baseline and every 4 weeks from Week 4 to Week 72
Secondary	Parts 1 and 2: Percentage of Participants With Absence of Macular Edema in the Study Eye at Specified Timepoints Through Week 72		Baseline and every 4 weeks from Week 4 to Week 72
Secondary	Parts 1 and 2: Percentage of Participants With Absence of Intraretinal Fluid in the Study Eye at Specified Timepoints Through Week 72		Baseline and every 4 weeks from Week 4 to Week 72
Secondary	Parts 1 and 2: Percentage of Participants With Absence of Subretinal Fluid in the Study Eye at Specified Timepoints Through Week 72		Baseline and every 4 weeks from Week 4 to Week 72
Secondary	Parts 1 and 2: Percentage of Participants With Absence of Intraretinal Fluid and Subretinal Fluid in the Study Eye at Specified Timepoints Through Week 72		Baseline and every 4 weeks from Week 4 to Week 72
Secondary	Part 2: Change From Week 24 in BCVA in the Study Eye at Specified Timepoints Through Week 72		Every 4 weeks from Week 24 to Week 72
Secondary	Part 2: Percentage of Participants Avoiding a Loss of =15 Letters in BCVA From Week 24 in the Study Eye at Specified Timepoints Through Week 72		Every 4 weeks from Week 24 to Week 72
Secondary	Part 2: Percentage of Participants Avoiding a Loss of =10 Letters in BCVA From Week 24 in the Study Eye at Specified Timepoints Through Week 72		Every 4 weeks from Week 24 to Week 72
Secondary	Part 2: Percentage of Participants Avoiding a Loss of =5 Letters in BCVA From Week 24 in the Study Eye at Specified Timepoints Through Week 72		Every 4 weeks from Week 24 to Week 72
Secondary	Part 2: Percentage of Participants Avoiding a Loss of >0 Letters in BCVA From Week 24 in the Study Eye at Specified Timepoints Through Week 72		Every 4 weeks from Week 24 to Week 72
Secondary	Part 2: Percentage of Participants on Different Treatment Intervals at Week 68		Week 68
Secondary	Part 2: Number of Study Drug Injections Received in the Study Eye From Week 24 Through Week 72		From Week 24 to Week 72
Secondary	Incidence and Severity of Ocular Adverse Events, With Severity Determined According to Adverse Event Severity Grading Scale		From Baseline until end of study (up to 72 weeks)
Secondary	Incidence and Severity of Non-Ocular Adverse Events, With Severity Determined According to Adverse Event Severity Grading Scale		From Baseline until end of study (up to 72 weeks)
Secondary	Plasma Concentration of Faricimab Over Time		Predose at Day 1, Weeks 4, 24, 28, 52, and 72
Secondary	Number of Participants With Anti-Drug Antibodies (ADAs) to Faricimab at Baseline and During the Study		Predose at Day 1 (Baseline), Weeks 4, 24, 28, 52, and 72