Studies within the label population
- Long-term safety and tolerability
- Health-related quality of life (HrQoL)
- Implementation science and/or quality system improvement programs (ex. clinical care pathways)
- Early post-event implementation
- Stroke
- PAD
- LDL-C lowering in under-represented population
- Adherence vs. other LLTs
Mechanistic Studies in secondary prevention
- Remodeling, fibrosis, inflammation
- Plaque burden regression/modification
- CABG graft remodeling
Mechanistic Studies in primary prevention and/or patients with statin-intolerance
- Remodeling, fibrosis, inflammation
- Plaque burden regression/modification
- Assessment techniques (IVUS, echo, CCTA, OTC, MRI) must be guidelines validated (pending vascular bed assessment)
Out of scope:
- Studies in off-label populations (with respect to geographies)
- Efficacy, safety and tolerability studies with inclisiran in pediatric population (<18 y)
- Studies in adults with HoFH and/or different populations than ASCVD and ASCVD equivalent
- CVOT trials
- Head-to-head efficacy/safety studies with other lipid lowering therapies
- Pre-Clinical Proposals (separate process)
Studies involving drug for any indication(s) currently in clinical development and not yet approved
With Drug
- Mechanistic studies in IgAN, C3G, aHUS
- Subgroups of patients that are included in the overall study population in indications pursued with iptacopan (IgAN, C3G, aHUS)
Without Drug
- Role of complement system in complement-mediated kidney diseases
- Additional ways to foster diagnosis of glomerulopathies beyond biopsy
- Studies which attempt to clarify the histopathologic complexity/equipoise of C3G
- Identification of approaches that lead to better characterization, management or correlation with outcomes in IgAN, C3G, aHUS, MN, LN – e.g. identification of biomarkers, genetic analysis or biopsy-based studies
- Burden of disease (clinical, economic, and/or humanistic burden) - IgAN, C3G, aHUS, MN, LN
- Epidemiology studies (incl. registries) - IgAN, C3G, aHUS, MN, LN
Out of scope:
- Pediatric studies (with drug)
- Studies exploring different dosing regimens as currently investigated
- Any study, which combines iptacopan with immunosuppressant
- Head-to-head comparisons
- Studies including patients with CKD stages 4 and 5
* Strategic areas of interest for iptacopan (PNH), please also refer to the Oncology section
Without drug
- Epidemiology associated with elevated Lp(a)
- Patient characterization, identification, and genetic risk across sub-groups
- Plaque characteristics and differences across patient sub-groups
- Association & impact on different types of CVD (ischemic stroke, CAVS, PAD), various vascular beds, and other diseases (e.g., AF, kidney disease, diabetes)
- Distinct and unique pathophysiology of Lp(a)
- Insights on the pro-inflammatory or pro-thrombotic mechanisms impacted by Lp(a)
- Unique features of Lp(a)
- Quantification of Lp(a) role in CV risk assessment tools
- Quantification of Lp(a) contribution to global CV risk and in light of other CV risk factors
- Risk score calculators incorporating Lp(a)
- Patient perception on contribution of Lp(a) to CVD and CV risk
- Lp(a) testing and global CV risk management
- Implementation of Lp(a) testing in CVD management pathways
- Clinical and economic value of Lp(a) testing
- Guidance on management of currently modifiable risk factors in the setting of elevated Lp(a)
Out of scope:
- Comparison / association with LDL-C
- Studies involving drug for any indication(s) currently in clinical development and not yet approved
Heart Failure
- RWE or Implementation Science studies on improvements of HF care through increase in GDMT
- RWE studies with sac/val in Chronic Heart Failure with reduced EF
- RWE studies with sac/val in Chronic Heart Failure with mildly-reduced or preserved EF - in geographies where it is in-label
- RWE studies with sac/val in HTN - in geographies where it is in-label
Out of scope:
- Comparative effectiveness studies vs other MoA, e.g. SGLT2i, MRA, BB
- Studies in non-cardiovascular disease
- Studies in patients with valvular disorders not related to HF
- Studies in children (<18 years)
- Mechanistic Studies in HF including but not limited to those looking at:
- Remodeling, fibrosis, inflammation
- Cardiac function (including diastolic function)
- Cardiac biomarkers
- Studies in populations with specific, less well studied / documented HF etiologies, e.g. chemotherapy /toxicity induced HF
Areas of interest by product
- Demonstrating or validating care needs for SMA populations post OAV101 Treatment-safety related items
- Expansion of treatment with OAV101 to patient populations not included in clinical trials (e.g. older/heavier, 4 copies, switch therapy, ambulatory)
- Value of OAV101: Cost of care, Quality of life, and Caregiver Burden-Cost effectiveness
- Methods/Processes to assess the efficacy and durability of OAV101 (e.g. bulbar function)
- Biomarkers for efficacy
Out of scope
- Clinical Trials involving OAV 101 re-dosing
- Study of OAV101 alternative doses/maximum dose
- Head-to-head comparison with other therapies and combination with other MDT
- Basic Science research that request use of OAV101
Areas of interest by product
- Interventional Studies of OAV IT in patients not included in clinical trials (e.g. ambulant SMA patients, severe scoliosis)
- Non-interventional Studies of OAV IT assessing sleep, bulbar function, scoliosis and respiratory function, head steadiness and independence.
- Studies on biomarkers assessing clinical response to OAV IT
Out of scope
- Clinical Trials involving OAV 101 re-dosing
- Study of OAV101 alternative doses/maximum dose
- Head-to-head comparison with other therapies and combination with other MDT
- Basic Science research that request use of OAV101
- Studies with crizanlizumab in sickle cell disease and related complications
- e.g- renal, leg ulcer, stroke, AVN, adolescents with SCD, priapism, splenic sequestration, VOCs
- Mechanistic studies with crizanlizumab
- Predictors of response to crizanlizumab
- SCD biomarkers
Out of scope:
- IIT requests from countries outside of US, SSA, Brazil
- IIT requests in non-SCD indications
- Studies with HU in sickle cell disease and organ protection
- e.g., spleen, lungs, kidneys
- Societal and economic impact of HU/HU-FCT on LMIC
- Studies with HU-FCT looking at treatment/stroke prevention in LMIC
- HU-FCT preference by caregivers
Out of scope
- IIT requests from countries outside of SSA, Brazil and India
- IIT requests in non-SCD indications
Indications: axSpA (axial spondyloarthritis), incl. r-axSpA (radiographic) and nr-axSpA (non-radiographic)
Clinical data, outcomes & RWE:
- Long term RWE studies on clinical efficacy, structural progression & safety of secukinumab
- Clinical outcomes with Secukinumab across different manifestations of axSpA , by gender and race
Implementation Science/HCS research.
- Identification of Predictors of structural progression and treatment algorithm related to structural progression
- Impact of early intervention and treat-to-target on patient outcomes
- impact of Secukinumab on prevention or reduction of Comorbidities
- Research Use of Novel imaging modalities for early diagnosis, pathogenesis of disease and monitoring of Secukinumab response
- Evaluate the impact of Secukinumab and treatment strategy to reduce Fatigue and pain
Exploratory/ mechanistic studies:
- New classification criteria of AxSpA and differences in pathogenesis of axSpA vs. axial PsA.
- Role of IL-17A in the pathogenesis of axial, peripheral manifestations and comorbidities of AxSpA
- Role of IL-17A across the spectrum of spondyloarthritides (SpA)
Out of scope
- Studies on safety topics e.g. infections (tuberculosis, HIV, viral hepatitis), high-risk patients
- Studies with combination biologics
- Clinical comparative studies with other treatments
Indications: Psoriatic arthritis (PsA)
Clinical data, outcomes and RWE:
- Long term RWE studies on clinical efficacy, inhibition of structural progression & safety of secukinumab
- Long term RWE studies on efficacy, safety and treatment strategy in juvenile PsA (JPsA) and enthesitis-related arthritis (ERA
- Clinical outcomes with Secukinumab in key manifestations of PsA, by gender, race, ethnic minorities and access to health care systems
- Clinical outcomes with Secukinumab in specific phenotypes (Axial PsA, skin predominant , nail/dactylitis, Oligoarticular predominant)
Implementation Science/HCS research: cost-effectiveness, resource utilization and guideline implementation
- Impact of early treatment and treat-to-target on patient outcomes and resource utilization
- Impact of Secukinumab on prevention or reduction of Comorbidities (e.g.CV, metabolic)
- Research studies on Novel imaging for early diagnosis and monitoring of Secukinumab response
- Evaluate the impact of Secukinumab to reduce Fatigue and pain
Exploratory/ mechanistic studies:
- Role of IL-17A in the pathogenesis of Axial PsA and differences with pathogenesis of. axial PsA vs axSpA
- Roles of different cytokine pathways in the key manifestations of PsA notably axial disease, enthesitis, nail-dactylitis
Out of scope
- Studies on safety topics e.g. infections (tuberculosis, HIV, viral hepatitis), high-risk patients
- Studies with combination of other biologics
- Comparative studies with other treatments
Indications: Psoriasis (PsO)
Clinical data, outcomes and RWE:
- Long term RWE studies on clinical efficacy, & safety of secukinumab, risk factors and prevention of the transition period of PsO to PsA
- Clinical outcomes with Secukinumab by gender, race, skin of colors, ethnic minorities and access to health care systems
- Long term RWE studies on efficacy, safety and treatment strategy in pediatric PsO
Implementation Science/HCS research:
- Impact of early intervention strategy on disease modification in PSO and resource utilization
- Research program designed for early diagnosis and characterization of PSO patients at risk of PsA : disease burden, risk factors, screening tools/app, novel imaging
Exploratory/ mechanistic studies:
- role of IL-17A in the pathogenesis of the transition period PsO to PsA
- Mechanistic study of Secukinumab in Early PsO
Out of scope
- Studies on safety topics e.g. infections (tuberculosis, HIV, viral hepatitis), high-risk patients
- Studies with combination other biologics
- Comparative studies with other treatments
Indications: Hidradenitis Suppurativa
Clinical data, outcomes and RWE:
- Disease progression and impact of early intervention (including imaging techniques, such as ultrasound)
- Clinical outcomes in subpopulations (e.g. disease phenotypes, comorbidities, Black / African American, super-responders,..)
- Safety of integration of surgical interventions during secukinumab treatment
- Safety and efficacy / effectiveness of combination therapy with secukinumab
- Effects of lifestyle intervention on HS treatment with secukinumab
Implementation Science / HCS research:
- Quality of care, cost-effectiveness, resource utilization, and guidelines implementation
- Artificial Intelligence/Machine Learning algorithms and big data approach to improve diagnosis and treatment of HS
- Development and validation of scoring tools / PROs
Exploratory/ mechanistic studies:
- Translational research on pathophysiology - role of IL-17A and other pathways in HS over the course of the disease
- Biomarkers to predict disease and treatment outcomes
Out of scope
- Comparative studies with other treatments
- Combination studies for secukinumab with other biologic agents
- IV dosing for HS
- Focus on prognosis and diligent monitoring of patients with MS (including data and digital):
- Markers for disease prognosis, disease monitoring, and/or risk mitigation
- New or improved quantitative outcome measures in MS, including next-generation technology and patient assessment technologies
- Integration of markers/outcome measures to establish disease stability or disease control, disease progression
- Mechanistic studies looking at differentiating Novartis compounds from other DMTs
Disease: Relapsing Multiple Sclerosis
Product: Remibrutinib
Areas of interest by product
Follow the science
- Impact on the immune system in and outside the CNS – clinical and preclinical studies
- Direct CNS effects (i.e. microglial activity, synaptogenesis, neuronal function) and correlation with clinical outcomes beyond relapses (e.g. PIRA, disability improvement) and with some patient outcomes (e.g. cognition, fatigue)
- Impact on chronic inflammation and correlation with linked clinical and paraclinical outcomes (disability measures, such as EDSS/MSFC, imaging measures, fluid biomarkers)
Safety related:
- BTKi – vaccine response
- Pregnancy registries (in line with initiatives already in place)
Identify unmet need under current DMTs:
- Patient preference
- Tolerability and safety concerns (what, when, to whom – patient profile-)
- Effectiveness gaps under HET (what, when, to whom – patient profile -)
Out of scope
Progressive phenotypes of MS (naSPMS or PPMS); hepatotoxicity
Studies in adult patients Chronic Myeloid Leukemia in Chronic Phase (CML-CP) in early treatment lines, investigating:
- Long-term safety and tolerability
- Clinical efficacy and safety in real-world setting
- Treatment sequencing
- Patient-reported outcomes (PROs) and Quality of Life (QoL)
- Patients with CML-CP and additional T315I mutation
- Response to asciminib in patients with pre-existing mutations other than T315I or treatment approaches in patients with emerging mutations under asciminib, including compound mutations
Studies exploring additional high-need patient populations other than CML-CP:
- Patients with Philadelphia-positive acute lymphoblastic leukemia (Ph+ALL)
- Exploratory high risk CML populations such as patients with additional genomic alterations
- CML-AP/BC
Studies in Treatment Free Remission (TFR)
- Studies aiming to improve deep molecular responses, increase the eligibility for TFR attempts or reduce the risk of relapse after treatment discontinuation
- Combination approaches of asciminib with non-ATP-TKI compounds
Studies providing insight into mechanistical action of asciminib, potential on- and off target effects and its use against additional mutations in patients with CML.
Out of scope:
- Use of asciminib in ABL-independent diseases
With Drug
- Mechanistic studies in Paroxysmal Nocturnal Hemoglobinuria (PNH);
- Studies evaluating factors associated with or predictive of treatment outcome in PNH;
- Studies exploring preferences in oral treatment administration approaches in PNH
Without Drug
- Role of complement system in complement-mediated PNH, Immune Thrombocytopenia Purpura (ITP) and Cold Agglutinin Disease (CAD);
- Approaches to facilitating and expediting diagnosis of PNH and CAD;
- Identification of biomarkers that leads to better characterization, management or correlation with outcomes in PNH, ITP and CAD;
- Burden of disease (clinical, economic, and/or humanistic burden) – PNH and CAD;
- Epidemiology studies (incl. registries) – PNH and CAD
Out of scope:
- Pediatric studies
- Studies exploring different dosing regimens as currently investigated
- Any study, which combines iptacopan with immunosuppressant and anti-C5 treatments
- Head-to-head comparisons
- Studies in other hematology diseases
** Strategic areas of interest for iptacopan (IgAN, C3G, aHUS, MN, LN), please also refer to the Cardiovascular, Renal & Metabolism section
- Studies (other than prospective design) describing optimal timing and sequence of treatment in advanced or metastatic GEP-NET patients
- Studies of Lutathera in advanced or metastatic NET patients in combination with other anti-cancer treatments, including chemotherapy (also bolus 1L), immuno-oncology therapies, tyrosine kinase inhibitors (TKIs), PARP-inhibitors, CDK4/6 inhibitors, or other upcoming treatments (if supported by MoA rationale)
- Retrospective studies describing long-term safety or health economic aspects
- Studies on biomarkers to predict and prognosticate treatment in GEP-NET
Indication: Prostate Cancer
- Sequential use of different radioligand therapies (alpha- or beta-emitter)
- Efficacy and safety of 177Lu-PSMA-617 combinations to overcome resistance and to improve efficacy outcomes / Efficacy and safety of 225Ac-PSMA-617/R2 combinations (any disease stage)
- Efficacy and safety of 177Lu-PSMA-617 in low volume disease (mHSPC, OMPC)
- Adaptive and alternative treatment regimens with 177Lu-PSMA-617 monotherapy or in combinations (mHSPC, mCRPRC)
- Efficacy and safety of radioligand therapy (alpha- or beta-emitter) in neoadjuvant setting (HRLPC)
- Impact of 177Lu-PSMA-617 efficacy and safety in patient populations with sub-optimal outcomes, including patients distinct mutations (e.g., PTEN-loss, AKT, DDR), patients CNS mets, liver mets etc. (mHSPC, mCRPRC)
- Retrospective analysis to predict long-term safety events (mCRPC)
- Treatment effect on disease biology (HRLPC, mHSPC, 1L-2L mCRPC)
- Understanding PSMA expression in different stages of prostate cancer (HRLPC, mHSPC, 1L-2L mCRPC)
Beyond GU
- Brain Metastasis (secondary malignancies)
- Ovarian Ca
- NSCLC
- GBM: microenvironment and translational research (MoA deeper understanding)
- GBM: Other mode of administration in GBM (not IV)
- Hepatocellular Carcinoma
- High grade gliomas
- Others PSMA-expressing/PET-avid tumors
- Imaging studies
- Pediatric indications
- HR+/HER2- studies in breast cancer
- Exploring data on CDK4/6 inhibitor rechallenge
- Exploring ribociclib with novel/emergent compounds
- Utilizing real world data and/or digital health technologies
- Utilizing patient reported outcomes (PRO)
Out of scope:
- Any area outside HR+/HER2- breast cancer
- Any study in overlap with ongoing Novartis-sponsored/supported studies