Africa 3D Imaging Market Analysis

Africa 3D Imaging Market Analysis


$ 3999

This report presents a strategic analysis of the Africa 3D Imaging Market and a forecast for its development in the medium and long term. It provides a broad overview of the market dynamics, trends and insights, growth drivers and restraints, segmentation, competitive landscape, healthcare policies and regulatory framework, reimbursement scenario, challenges and future outlook. This is one of the most comprehensive reports about the Africa 3D Imaging Market, offering unmatched value, accuracy and expert insights.

ID: IN10AFDH001 CATEGORY: Digital Health GEOGRAPHY: Africa

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Africa 3D Imaging Market Executive Summary

Africa is the second-largest continent in terms of land and population, after Asia. It covers one-fifth of the planet's land area and is home to 14% of the world's inhabitants. It is rapidly growing and improving in every field, and the world's attention is steadily shifting to the continent over time.

Recognized as one of the most diversified lands, Africa is home to a population that comes from different nationalities, identities, and cultures. Diversity is in the very nature of Africa and this is exactly what makes it complicated to provide quality healthcare. Furthermore, healthcare providers face difficulties such as inconsistent development, a lack of infrastructure, and overall healthcare resource education and development. A noticeable difference in healthcare facilities, as well as brain drain as experienced healthcare personnel, leave Africa in search of a higher standard of living. Revenue in the Health Care segment is projected to reach US$664.20m in 2022. Revenue is expected to show an annual growth rate (CAGR 2022-2025) of 17.04%, resulting in a projected market volume of US$1,065.00m by 2025In the Health Care segment, the number of users is expected to amount to 137.1m users by 2025.

Digital healthcare is developing globally as a result of IT technology development and the emergence of remote patient monitoring (RPM) solutions. RPM has developed into a useful tool for enhancing clinical assessment and decision-making while lowering the likelihood of hospitalization. With the prevalence of cancer, diabetes and cardiovascular diseases rising, RPM service use is also anticipated to rise. Additionally, as the aging population grows, more of them are choosing independent, healthy lifestyles, which will probably increase the adoption of RPM solutions. 

3D imaging is the process of creating a picture that appears to be three-dimensional and has depth. High-resolution images are created by combining 3D image sensors with cameras, screens, and other devices. The healthcare business, entertainment industry, building, and construction industry, and automobile industry all commonly use 3D imaging as a result. Additionally, the prevalence of chronic diseases is rising Africaly, and people are becoming more aware of the advantages of 3D imaging technology, such as how precisely it depicts internal organs while minimizing tissue damage and the high quality of data that can be obtained from different medical imaging techniques. These and other factors are what is causing a demand for 3D imaging solutions. Growth is anticipated to be constrained by the high cost of these sensors and a lack of expertise in 3D imaging applications.

Market Size and Key Findings

The Global 3D Imaging market is estimated to be valued at US$ 17.83 Bn in 2021 and is expected to exhibit a CAGR of 20.69% over the forecast period (2021-2030).

Africa 3D Imaging Market Size (In $Bn) (2021-2030F)

Market Dynamics

Market Growth Drivers Analysis

VR technology is used in the medical sector for a variety of functions. For example, medical education and training are carried out using VR simulation technologies. Major industry players are working to create VR technologies that effectively combine 360-degree videos to give students and doctors dynamic learning opportunities. They can practise difficult real-world scenarios thanks to technology, which helps them develop their talents. The use of virtual reality in surgery has many advantages, including reducing the time and risk of surgery and assisting doctors in gauging the appropriate amount of pressure for delicate procedures.

Market Restraints

Industry experts typically use 3D imaging to aid them in quality control procedures. To create 3D rendering for inspection and testing purposes, many technologies are used with 3D imaging methods. To collect and produce a realistic image of the projected item, 3D imaging equipment uses a variety of sensors, including optical, acoustic, laser scanning, radar, thermal, and seismic sensors, as well as different light-detecting modules and semiconductors. During the projected period, the high price volatility of certain raw materials or components may significantly impede the Africa market's ability to generate revenue. Although 3D imaging tools like 3D scanners are widely utilized in a variety of industrial tasks, their high cost prevents more people from using them, especially in developing countries.

Competitive Landscape

Key Players

The Africa 3D imaging market has a fragmented competitive landscape, with several major players operating on both a Africa and regional scale. To increase their individual product portfolios and establish a solid foothold in the Africa market, key players are working on product development and strategic alliances. Autodesk Inc., Trimble Inc., Dassault Systems, Adobe, General Electric Company, Pix4D SA, Bentley Systems, Inc., Maxon Computer GmbH, Able Software Corp., and Esri are some of the market's major participants.

1. Executive Summary
1.1 Digital Health Overview
1.2 Global Scenario
1.3 Country Overview
1.4 Healthcare Scenario in Country
1.5 Digital Health Policy in Country
1.6 Recent Developments in the Country

2. Market Size and Forecasting
2.1 Market Size (With Excel and Methodology)
2.2 Market Segmentation (Check all Segments in Segmentation Section)

3. Market Dynamics
3.1 Market Drivers
3.2 Market Restraints

4. Competitive Landscape
4.1 Major Market Share

4.2 Key Company Profile (Check all Companies in the Summary Section)

4.2.1 Company
4.2.1.1 Overview
4.2.1.2 Product Applications and Services
4.2.1.3 Recent Developments
4.2.1.4 Partnerships Ecosystem
4.2.1.5 Financials (Based on Availability)

5. Reimbursement Scenario
5.1 Reimbursement Regulation
5.2 Reimbursement Process for Diagnosis
5.3 Reimbursement Process for Treatment

6. Methodology and Scope

3D Imaging Market Analysis Segmentation

By Product (Revenue, USD Billion):

The 3D Imaging Market is divided into equipment, materials, and software & services depending on the component. In 2020, the market for 3D-printed medical devices was dominated by software and services. During the forecast period, the cost-effectiveness, utility, uniformity, and accuracy provided by services for medical device 3D printing are anticipated to drive the segment's expansion.

  • 3D Camera
  • Sonography

By Application (Revenue, USD Billion):

The market for 3D-printed medical devices is divided into wearable/implantable medical devices, other medical devices, standard prosthetics and implants, custom prosthetics and implants, tissue-engineered goods, surgical guides, and surgical tools based on the application. In 2020, the custom prosthetics and implants market sector held a greater market share. Biological materials (such skin and bones), plastics, ceramics, and metals are just a few of the materials that may be used to create highly customizable prosthetics and implants using 3D printing. The development of this market sector is anticipated to be fueled by the 3D printing of custom implants, which is drawing in new investors and medical device businesses.

  • Surgical Guides
  • Dental Guides
  • Craniomaxillofacial Guides
  • Orthopedic Guides
  • Spinal Guides
  • Surgical Instruments
  • Surgical Fasteners
  • Scalpels
  • Retractors
  • Standard Prosthetics & Implants
  • ?Custom Prosthetics & Implants
  • Orthopedic Implants
  • Dental Prosthetics & Implants
  • Craniomaxillofacial Implants
  • Tissue-engineered Products
  • Bone & Cartilage Scaffolds
  • Ligament & Tendon Scaffolds
  • Hearing Aids
  • Wearable Medical Devices
  • ?Other Applications

By Technology (Revenue, USD Billion):

The market for 3D printing medical devices has been divided into various technological categories, including electron beam melting (EBM), laser beam melting (LBM), photopolymerization, droplet deposition or extrusion-based technologies, three-dimensional printing (3DP) or adhesion bonding, and others. The segment of these that accounted for the biggest market share in 2020 was laser beam melting (LBM). The significant market share of this sector is linked to the technology's expanding use in the dentistry sector and in the production of implants for minimally invasive surgery.

  • Laser Beam Melting
  • Direct Metal Laser Sintering
  • Selective Laser Sintering
  • Selective Laser Melting
  • LaserCUSING
  • Photopolymerization
  • Digital Light Processing
  • Stereolithography
  • Two-photon Polymerization
  • PolyJet 3D Printing
  • Droplet Deposition/Extrusion-based Technologies
  • Fused Deposition Modeling
  • Multiphase Jet Solidification
  • Low-temperature Deposition Manufacturing
  • Microextrusion Bioprinting
  • Electron Beam Melting
  • Three-dimensional Printing/Adhesion Bonding/Binder Jetting
  • Other Technologies

By End User (Revenue, USD Billion):

Hospitals & surgical centers, dentistry & orthopaedic clinics, academic institutions & research laboratories, pharma-biotech & medical device firms, and clinical research organizations make up the different end-user segments of the 3D Imaging Market. The sector of hospitals and surgical centres held the biggest market share in 2020. The significant market share of this sector can be due to the increased uptake of cutting-edge medical technology by hospitals, the expansion of existing 3D printing facilities, and the rising affordability of 3D printing services.

  • Hospitals & Surgical Centers
  • Dental & Orthopedic Clinics
  • Academic Institutions & Research Laboratories
  • Pharma-Biotech & Medical Device Companies
  • Clinical Research Organizations

Methodology for Database Creation

Our database offers a comprehensive list of healthcare centers, meticulously curated to provide detailed information on a wide range of specialties and services. It includes top-tier hospitals, clinics, and diagnostic facilities across 30 countries and 24 specialties, ensuring users can find the healthcare services they need.​

Additionally, we provide a comprehensive list of Key Opinion Leaders (KOLs) based on your requirements. Our curated list captures various crucial aspects of the KOLs, offering more than just general information. Whether you're looking to boost brand awareness, drive engagement, or launch a new product, our extensive list of KOLs ensures you have the right experts by your side. Covering 30 countries and 36 specialties, our database guarantees access to the best KOLs in the healthcare industry, supporting strategic decisions and enhancing your initiatives.

How Do We Get It?

Our database is created and maintained through a combination of secondary and primary research methodologies.

1. Secondary Research

With many years of experience in the healthcare field, we have our own rich proprietary data from various past projects. This historical data serves as the foundation for our database. Our continuous process of gathering data involves:

  • Analyzing historical proprietary data collected from multiple projects.
  • Regularly updating our existing data sets with new findings and trends.
  • Ensuring data consistency and accuracy through rigorous validation processes.

With extensive experience in the field, we have developed a proprietary GenAI-based technology that is uniquely tailored to our organization. This advanced technology enables us to scan a wide array of relevant information sources across the internet. Our data-gathering process includes:

  • Searching through academic conferences, published research, citations, and social media platforms
  • Collecting and compiling diverse data to build a comprehensive and detailed database
  • Continuously updating our database with new information to ensure its relevance and accuracy

2. Primary Research

To complement and validate our secondary data, we engage in primary research through local tie-ups and partnerships. This process involves:

  • Collaborating with local healthcare providers, hospitals, and clinics to gather real-time data.
  • Conducting surveys, interviews, and field studies to collect fresh data directly from the source.
  • Continuously refreshing our database to ensure that the information remains current and reliable.
  • Validating secondary data through cross-referencing with primary data to ensure accuracy and relevance.

Combining Secondary and Primary Research

By integrating both secondary and primary research methodologies, we ensure that our database is comprehensive, accurate, and up-to-date. The combined process involves:

  • Merging historical data from secondary research with real-time data from primary research.
  • Conducting thorough data validation and cleansing to remove inconsistencies and errors.
  • Organizing data into a structured format that is easily accessible and usable for various applications.
  • Continuously monitoring and updating the database to reflect the latest developments and trends in the healthcare field.

Through this meticulous process, we create a final database tailored to each region and domain within the healthcare industry. This approach ensures that our clients receive reliable and relevant data, empowering them to make informed decisions and drive innovation in their respective fields.

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Last updated on: 04 January 2023
Updated by: Ritu Baliya

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