Balloon Catheters Patent Landscape Report

Balloon Catheters Patent Landscape Report


Wilson Disease Drug Pipeline Analysis 2024

Wilson Disease drug pipeline is significantly driven by the disorder's prevalence and the urgency for effective treatment options. Globally, the incidence of Wilson Disease is estimated to be between 1 in 30,000 to 1 in 40,000. It is a genetic disorder characterized by excessive copper accumulation in the body, particularly affecting the liver and brain, leading to severe complications without timely intervention.

Key Takeaways
  • The Wilson Disease drug pipeline market includes key players such as include Alexion Pharmaceuticals, Inc., Vivet Therapeutics SAS, Ultragenyx Pharmaceutical Inc. and Nobelpharma, among others. These companies are at the forefront of developing innovative therapies aimed at improving survival rates and quality of life for Wilson Disease patients.
  • The Wilson disease drug pipeline includes promising drug candidates such as VTX-801, UX701-CL001, and ALXN1840, among others. These therapies are in various stages of development and offer new hope for innovative treatment options that specifically target pathways involved in Wilson Disease progression.
  • Regulatory agencies are actively providing support through expedited pathways for drug approvals and special designations, fostering rapid development and market availability of new therapies to address the needs of Wilson Disease patients.
Report Coverage

The Wilson Disease drug pipeline analysis provides an overview of recent advancements and ongoing clinical trials. The report highlights progress in novel therapies and gene therapy approaches, aiming for improved management of copper metabolism and patient outcomes. It covers innovative strategies such as gene therapies targeting ATP7B mutations and small molecules enhancing copper excretion. The competitive landscape examines collaborations and strategic partnerships that accelerate research and development. It also discusses regulatory milestones achieved by investigational drugs, highlighting their impact on future treatment paradigms, and promising more effective and personalized treatment options for Wilson disease patients.

Wilson Disease Drug Pipeline Outlook

Wilson Disease is a genetic disorder caused by mutations in the ATP7B gene, leading to impaired copper transport and accumulation in vital organs. Early diagnosis and treatment are crucial to prevent severe liver and neurological damage. Traditional treatment options include chelation therapy and zinc supplementation, but recent advancements focus on gene therapy and novel drug development.

Advancements in targeted therapies and immune checkpoint inhibitors are enhancing Wilson disease treatment, offering promising long-term outcomes. The market is witnessing increased investment in R&D and regulatory approvals for innovative drugs, underscoring a dynamic landscape focused on improving survival rates and patient care.

In 2022, significant advancements in breast cancer treatment have been made. The FDA approved Cuvrior (trientine tetrahydrochloride) for the treatment of Wilson's disease. This medication is intended for adult patients who have been de-coppered and are tolerant to penicillamine, a long-standing first-line treatment. Cuvrior acts as a copper chelating agent, helping to manage copper accumulation in the body.

These approvals and ongoing developments underscore the dynamic and evolving nature of Wilson disease, offering new treatment options and hope for improved patient outcomes.

Wilson Disease Pipeline Drug Profiles

Recent developments in Wilson Disease treatment have introduced several promising drugs currently in clinical trials:
  • VTX-801: VTX-801 is an investigational gene therapy developed by Vivet Therapeutics designed to deliver a functional ATP7B gene to patients with Wilson Disease. This therapy aims to restore normal copper transport and metabolism by addressing the underlying genetic cause of the disease. By correcting the ATP7B deficiency, VTX-801 seeks to reduce copper accumulation in the liver and other organs, potentially offering a long-term solution for managing Wilson disease.
  • UX701-CL001: UX701-CL001 is a gene therapy candidate from Ultragenyx Pharmaceutical intended to treat Wilson disease by correcting ATP7B mutations. The therapy provides patients with functional copies of the ATP7B gene to reduce copper buildup in the body. UX701-CL001 aims to prevent the severe neurological and hepatic complications associated with Wilson disease, potentially improving patient outcomes by targeting the genetic root of the disorder.
  • ALXN1840: ALXN1840 is an oral copper chelator developed by Alexion Pharmaceuticals for the treatment of Wilson disease. This drug is designed to bind free copper ions, facilitating their safe excretion from the body, and preventing copper accumulation in organs. ALXN1840 offers a more targeted therapeutic approach compared to traditional treatments, aiming to reduce the toxic effects of excess copper and improve the quality of life for patients with Wilson disease.
Drug Pipeline Therapeutic Assessment

This section of the report covers the analysis of Wilson Disease drugs based on various segmentations such as:

Analysis by Route of Administration
  • Oral
The oral route of administration in Wilson Disease treatment includes drugs like ALXN1840, which are taken by mouth to manage copper levels. ALXN1840 works by binding excess copper in the bloodstream, promoting its excretion, and preventing accumulation in the liver and brain. This non-invasive approach allows for easy adherence to treatment regimens and is particularly beneficial for patients requiring long-term management of Wilson disease, offering an alternative to more invasive procedures.
  • Parenteral
Parenteral administration for Wilson Disease involves delivering treatments like gene therapies directly into the bloodstream, using intravenous routes. Gene therapies such as VTX-801 and UX701-CL001 are administered this way to deliver functional copies of the ATP7B gene to target cells. This method ensures precise delivery and absorption, correcting the genetic defects at the source and potentially offering a long-term solution for managing Wilson disease.
  • Others
Innovative delivery methods are being explored in Wilson Disease treatment to enhance the efficacy and bioavailability of therapies. These include advanced targeted delivery systems that focus on improving how drugs reach and impact affected tissues. Such methods aim to optimize therapeutic outcomes by ensuring that treatments like gene therapies and novel chelators achieve maximum efficacy with minimal side effects, offering hope for improved disease management.

Analysis by Phase

According to EMR analysis, Phase I clinical trials dominate the Wilson Disease pipeline. The number of Wilson Disease drugs currently in Phase 1 clinical trials varies as new trials are continually initiated and completed. However, as of the latest data, there are over 5 ongoing Phase 1 trials for Wilson Disease drugs worldwide. These trials involve a wide range of therapeutic approaches, including targeted therapies, immunotherapies, and combination treatments.
  • Preclinical Phase: Laboratory and animal studies to assess safety and efficacy.
  • Phase I: Small-scale human trials focusing on safety and dosage.
  • Phase II: Larger trials to evaluate efficacy and side effects.
  • Phase III: Large-scale trials to confirm effectiveness, monitor side effects, and compare with standard treatments.
  • Phase IV: Post-marketing studies to gather more information on risks, benefits, and optimal use.
Analysis by Drug Class
  • Bispecific Antibody
Bispecific antibodies in Wilson Disease treatment are designed with two distinct binding sites, targeting copper-related pathways, or modulating the immune system. This dual-targeting capability allows for precise intervention, offering potential advancements in managing the disease by simultaneously addressing multiple aspects of copper metabolism and immune response.
  • Peptides
Peptides are being explored for their ability to influence copper metabolism or immune responses in Wilson disease. These short chains of amino acids offer targeted intervention strategies, potentially enhancing the regulation of copper levels and providing therapeutic benefits by modulating specific biological pathways involved in the disease.
  • Small Molecule
Small molecule therapies, such as copper chelators like ALXN1840, play a critical role in managing Wilson disease. These agents bind to excess copper, neutralizing and facilitating its excretion. This approach effectively reduces copper overload, helping to prevent organ damage and manage symptoms, offering a practical solution for long-term disease management.
  • Gene Therapy
Gene therapy represents a cutting-edge approach in Wilson disease treatment, aiming to correct mutations in the ATP7B gene. By restoring normal copper metabolism, gene therapy has the potential to offer a cure, addressing the root cause of the disease. This innovative approach focuses on delivering functional gene copies to target cells, offering hope for long-term and potentially curative solutions.

Wilson Disease Drug Clinical Trials Assessment- Competitive Dynamics

Here are a few notable participants involved in Wilson disease research and development:

These advancements represent significant steps forward in Wilson Disease treatment, potentially offering patients more effective and less burdensome options.

Vivet Therapeutics SAS: Based in Paris, France, Vivet Therapeutics is at the forefront of developing gene therapies for metabolic disorders. Their innovative treatment, VTX-801, targets Wilson Disease by correcting genetic defects at the source. Vivet's pipeline emphasizes precision medicine, aiming to enhance treatment efficacy and offer a long-term solution for patients suffering from genetic conditions.

Alexion Pharmaceuticals, Inc.: Headquartered in Boston, Massachusetts, Alexion Pharmaceuticals is renowned for its innovative therapies targeting rare diseases. Their development of ALXN1840, an oral copper chelator, is designed to manage copper levels effectively in Wilson Disease patients. Alexion's focus on rare conditions drives their commitment to improving patient outcomes through groundbreaking research and development.

Ultragenyx Pharmaceutical Inc.: Located in Novato, California, Ultragenyx specializes in developing novel therapies for rare genetic diseases. The company’s promising gene therapy candidate, UX701-CL001, targets Wilson Disease by correcting ATP7B mutations. Ultragenyx's dedication to addressing unmet medical needs is reflected in its strategic focus on creating effective and personalized treatment options for patients.

Nobelpharma Co. Ltd.: Based in Tokyo, Japan, Nobelpharma is dedicated to advancing therapeutic options for genetic disorders. They contribute to the development of innovative solutions for Wilson Disease, focusing on enhancing patient care through cutting-edge research and tailored treatment strategies that address the underlying causes of rare diseases.

Reasons To Purchase This Report

The Wilson Disease drug pipeline analysis report offers invaluable insights into the latest advancements and future trends in Wilson Disease treatment. It provides detailed evaluations of emerging therapies, pipeline assessment, and competitive landscape analysis, enabling informed investment decisions and strategic planning.

Key Questions Answered in the Wilson Disease Drug Pipeline Analysis Report
  • What is the current state of the Wilson disease drug pipeline?
  • How many companies are currently involved in Wilson disease drug development?
  • What is the number of drugs in Phase III and Phase IV trials for Wilson disease?
  • Which organisations are at the forefront of Wilson disease drug research?
  • What are the effectiveness and safety profiles of the drugs in the Wilson Disease pipeline?
  • What opportunities and challenges exist in the Wilson disease clinical trial landscape?
  • Which companies are leading the major clinical trials for Wilson disease drugs?
  • Which regions are involved in clinical trials for Wilson disease?
  • What are the recent clinical trial results for Wilson disease drugs?
  • What are the emerging trends in Wilson disease clinical trials?


1 Introduction
2 Executive Summary
3 Global Balloon Catheters Market Overview
3.1 Global Balloon Catheters Market Historical Value (2017-2023)
3.2 Global Balloon Catheters Market Forecast Value (2024-2032)
4 Global Balloon Catheters Market Segmentation
4.1 Global Balloon Catheters Market (2017-2032) By Product
4.1.1 Market Overview
4.1.2 Rapid Exchange (RX) Balloon Catheters
4.1.3 Over-The-Wire (OTW) Balloon Catheters
4.1.4 Drug Eluting Balloon Catheters
4.1.5 Stent Graft Balloon Catheters
4.1.6 Others
4.2 Global Balloon Catheters Market (2017-2032) By Indication
4.2.1 Market Overview
4.2.2 Coronary Artery Disease
4.2.3 Peripheral Vascular Disease
4.3 Global Balloon Catheters Market (2017-2032) by End User
4.3.1 Market Overview
4.3.2 Hospitals
4.3.3 Ambulatory Surgical Centers
4.3.4 Others
5 Global Market Dynamics
5.1 Market Drivers and Constraints
5.2 Porter’s Five Forces Analysis
5.3 PESTEL Analysis
5.4 Industry Events, Initiatives, and Trends
5.5 Value Chain Analysis
6 Global Balloon Catheters Patent Landscape Analysis
6.1 Patent Distribution by Publication Year
6.2 Patent Distribution by Application Year
6.3 Patent Distribution by Priority Year
6.4 Analysis by Type of Patent
6.4.1 Granted Patents
6.4.2 Patent Application
6.4.3 Amended Application
6.4.4 Search Report
6.5 Analysis by Legal Status
6.5.1 Active
6.5.2 Pending
6.5.3 Expired/Discontinued
6.6 Analysis by Patent Jurisdiction
6.7 Analysis by Patent Age
6.8 Analysis by Cooperative Patent Classification (CPC) Codes
6.9 Average Time to Publish a Patent
6.9.1 By Entities
6.9.2 By Jurisdiction
6.9.3 By Technology
6.10 Analysis by Type of Entity (Academic and Non-Academic)
6.11 Analysis by Top Applicants
6.12 Analysis by Top Inventors
7 Global Balloon Catheters Patent Analysis by Technology
7.1 Total Patents by Top Technologies
7.2 Time Evolution of Patents by Technology
7.3 Emerging Technologies
7.4 Patent Segmentation, By Product
7.4.1 Time Evolution by Number of Patents
7.4.2 Time Evolution by Number of Patent Families
7.4.3 Analysis by Type of Entity (Academic vs Non-Academic)
7.4.4 Analysis by Top Applicants
7.4.5 Analysis by Top Inventors
*Complete technology list will be provided in the report.
8 EMR Patent Valuation Analysis
8.1 Assessment Methodology
8.2 High Value Patents
8.3 Medium Value Patents
8.4 Low Value Patents
9 Global Balloon Catheters – Top 10 Players Patent Analysis
9.1 Top 10 Entities by Number of Patents
9.2 Analysis by Publication Year
9.3 Analysis by Application Year
9.4 Analysis by Priority Year
9.5 Analysis by Type of Patent
9.6 Analysis by Jurisdiction
9.7 Analysis by Cooperative Patent Classification (CPC) Codes
9.8 Analysis by Source of Innovation
9.9 Analysis by Forward and Backward Citations
9.10 Analysis by Legal Status
9.11 Analysis by Patent Age
9.12 Analysis by Key Inventors
9.13 Entity Dynamics
9.13.1 Analysis by Type of Player (Academic vs Non-Academic)
9.13.2 Analysis by Collaboration
9.13.3 Analysis by Technology
9.13.4 Newcomers
9.13.4.1 Start-up Companies
9.13.4.2 Established Companies
10 Patent Profile of Key Players
10.1 Cook Medical Technologies LLC
10.1.1 Product Portfolio
10.1.2 Patent Portfolio by Patent Families
10.1.3 Time Evolution of Patents
10.1.4 Geographical Patent Coverage
10.1.5 Patent Analysis by Technology
10.1.6 Patent News and Developments
10.1.7 Financial Analysis
10.1.8 SWOT Analysis
10.2 Boston Scient Scimed Inc
10.3 Scimed Life Systems INC
10.4 Terumo Corp
10.5 Advanced Cardiovascular System
11 Future Trends
12 Global Balloon Catheters Landscape (Additional Insight) *
12.1 Global Balloon Catheters Market: Developers Landscape
12.1.1 Analysis by Year of Establishment
12.1.2 Analysis by Company Size
12.1.3 Analysis by Region
12.2 Global Balloon Catheters Market: Product Landscape
12.2.1 Analysis by Product
12.2.2 Analysis by Indication
*Additional insights are not provided in the standard report.

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