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Global Radiopharmaceuticals Market Insight

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Published Date: Feb, 2014
Format: PDF
No of Pages: 450
 
 
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  • Abstract
  • Table of Contents

"Radioisotopes are radioactive isotopes having an unstable balance of atomic nucleus. Radioisotopes are produced either by using nuclear research reactor or by using cyclotron. These isotopes emit energy in the form of alpha, beta or gamma when changed to a stable nature. The gamma rays, thus emitted are used in Nuclear medicine, specifically in medical diagnostics. In this field, the radiation is used to provide diagnostic information about a human body’s functioning. Radiotherapy is also used to treat some life-threatening diseases like cancer. Also, it has been observed that the increasing use of radioisotopes is one of the major reasons for a fall in deaths caused by cancer across the globe. It is because of this feature that the demand for radioisotopes or otherwise called radiopharmaceuticals is increasing significantly.

A major part of the radiopharmaceuticals market is dominated by diagnostic radiopharmaceuticals, where, SPECT and PET isotopes are most common. The new innovations in nuclear medicine to target coronary heart disease, Alzheimer’s disease, breast cancer, and bone metastasis would be the major drivers of the diagnostic radiopharmaceuticals market in the future. The other segment of the market is the therapeutic segment, which accounts for the remaining 10%. This segment is mainly dominated by isotopes like I-131, Sm-153, Re-186, Y-90, and Lu-177. It is expected that over the next 5-6 years horizon, this market would witness a steep increase owing to the introduction of many new products for treating lymphoma, colon cancer, lung cancer, prostate cancer, bone cancer and other persistent cancers.

The increasing popularity and use of SPECT and PET scans, new and efficient technological equipment, increased awareness about radiopharmaceuticals among physicians and most importantly, the easy availability of radiopharmaceutical from cyclotrons are some of the major factors driving the global radiopharmaceutical market.

Inspite of the market for radiopharmaceuticals growing rapidly, there are many challenges, like high cost of devices using radioisotopes, short half-life, lack of good manufacturing practices, and stringent regulatory approvals. Additionally, there are also some obstacles with regards to the manufacturing of radioisotopes, which need to be addressed to tap the opportunities.

The global market for radiopharmaceuticals was estimated to be valued at approximately USD 5.3 billion in 2013. Owing to factors like the increasing adoption rates of PET and SPECT scanners, alpha radioimmunotherapy based targeted cancer treatment, and ready availability of radiopharmaceutical from cyclotrons, coupled with significant developments in research and technology, this market is expected to record a CAGR of close to 15% to reach approximately USD 10.6 billion by 2018.

“Global Radiopharmaceuticals Market Insight” Report Highlights

* Global Radio Pharmaceuticals Market Overview by Region
* Target Patient Base by Region
* Radiopharmaceuticals Market Regulation for US, Europe & Canada
* Radioisotopes Used in Radiopharmaceuticals
* Radiopharmaceutical Clinical Pipeline Insight
* Profile of 87 Radiopharmaceuticals Drugs in Clinical Phase "

1. Global Radiopharmaceuticals Market Outlook
1.1 Market Overview
1.2 Diagnostic & Therapeutic Radiopharmaceuticals
1.3 Market Dynamics
1.4 Radioisotopes Used in Radiopharmaceuticals
1.5 Radiopharmaceuticals in Clinical Development Phase

2. Europe Guidelines for Radiopharmaceuticals
2.1 Physico-Chemical, Biological or Microbiological Tests of Medicinal Products
2.2 Toxicological & Pharmacological Tests
2.3 Clinical Documentation
2.4 Radiation Dosimetry
2.5 Labelling & Packaging

3. US Guidelines for Radiopharmaceuticals
3.1 Clinical Indication
3.2 General Considerations for Safety Assessments
3.3 Clinical Evaluation of Medical Imaging Agents

4. Canada Guidelines for Radiopharmaceuticals
4.1 Use of Positron Emitting Radiopharmaceuticals (PERs) in Basic Research
4.2 Use of Positron Emitting Radiopharmaceuticals in Basic Research involving Humans
4.3 Stability Testing of Existing Drug Substances and Products
4.4 Good Manufacturing Practices (GMP) for Positron Emitting Radiopharmaceuticals (PERs)

5. Radiopharmaceuticals Clinical Trial Insight by Indication, Country & Phase
5.1 Phase Unknown
5.2 Research
5.3 Preclinical
5.4 Clinical
5.5 Phase 0
5.6 Phase I
5.7 Phase I/II
5.8 Phase II
5.9 Phase III
5.10 Preregistration
5.11 Registered

6. Marketed Radiopharmaceuticals by Indication & Country

7. Discontinued & Suspended Radiopharmaceuticals Drug Profiles by Indication, Country & Phase
7.1 Discontinued Clinical Trials for Radiopharmaceuticals
7.2 Suspended Clinical Trials for Radiopharmaceuticals
7.3 No Development Reported

8. Competitive Landscape
8.1 Avid Radiopharmaceuticals
8.2 Actinium Pharmaceuticals
8.3 AREVA Med
8.4 Bayer HealthCare Pharmaceuticals
8.5 Cardinal Health
8.6 Immunomedics
8.7 Lantheus Medical Imaging
8.8 Merck & Co
8.9 Navidea
8.10 Nordion
8.11 Lantheus Medical Imaging
8.12 GE Healthcare
8.13 Ion Beam Applications
8.14 PETNET Solutions (Siemens Healthcare Global)

Figure 1-1: Global Radiopharmaceuticals Market (US$ Billion), 2013-2018
Figure 1-2: Global Radiopharmaceuticals Market by Region (%), 2013 & 2018
Figure 1-3: Global Radiopharmaceuticals Market by Region (US$ Billion), 2013 - 2018
Figure 1-4: Target Patient Base for Radiopharmaceuticals (Million), 2013-2018
Figure 1-5: Target Patient Base for Radiopharmaceuticals by Region (%), 2013 & 2018
Figure 1-6: Target Patient Base for Radiopharmaceuticals by Region (Million), 2013 - 2018
Figure 1-7: Radiopharmaceuticals Development by Clinical Phase (%), 2014
Figure 1-8: Radiopharmaceuticals Development by Clinical Phase (Number of Drugs), 2014
Figure 1-9: Suspended & Discontinued Radiopharmaceuticals in Clinical Phase (Number of Drugs), 2014
Figure 8-1: Lantheus Medical Imaging Product Pipeline

List of Tables

Table 1-1: Calcium-47 Investigation Properties as Radiopharmaceuticals Drug
Table 1-2: Carbon-11 Investigation Properties as Radiopharmaceuticals Drug
Table 1-3: Carbon-14 Investigation Properties as Radiopharmaceuticals Drug
Table 1-4: Chromium-51 Investigation Properties as Radiopharmaceuticals Drug
Table 1-5: Cobalt-57 Investigation Properties as Radiopharmaceuticals Drug
Table 1-6: Cobalt-58 Investigation Properties as Radiopharmaceuticals Drug
Table 1-7: Erbium-169 Investigation Properties as Radiopharmaceuticals Drug
Table 1-8: Fluorine-18 Investigation Properties as Radiopharmaceuticals Drug
Table 1-9: Gallium-67 Investigation Properties as Radiopharmaceuticals Drug
Table 1-10: Gallium-68 Investigation Properties as Radiopharmaceuticals Drug
Table 1-11: Hydrogen-3 Investigation Properties as Radiopharmaceuticals Drug
Table 1-12: Indium-111 Investigation Properties as Radiopharmaceuticals Drug
Table 1-13: Iodine-123 Investigation Properties as Radiopharmaceuticals Drug
Table 1-14: Iodine-125 Investigation Properties as Radiopharmaceuticals Drug
Table 1-15: Iodine-131 Diagnostic Investigation Properties as Radiopharmaceuticals Drug
Table 1-15: Iodine-131 Therapeutic Investigation Properties as Radiopharmaceuticals Drug
Table 1-16: Iron-59 Investigation Properties as Radiopharmaceuticals Drug
Table 1-17: Krypton-81m Investigation Properties as Radiopharmaceuticals Drug
Table 1-18: Nitrogen-13 Investigation Properties as Radiopharmaceuticals Drug
Table 1-19: Oxygen-15 Investigation Properties as Radiopharmaceuticals Drug
Table 1-20: Phosphorus-32 Investigation Properties as Radiopharmaceuticals Drug
Table 1-21: Radium-223 Investigation Properties as Radiopharmaceuticals Drug
Table 1-22: Rubidium-82 Investigation Properties as Radiopharmaceuticals Drug
Table 1-23: Samarium-153 Investigation Properties as Radiopharmaceuticals Drug
Table 1-24: Selenium-75 Investigation Properties as Radiopharmaceuticals Drug
Table 1-25: Sodium-22 Investigation Properties as Radiopharmaceuticals Drug
Table 1-26: Sodium-24 Investigation Properties as Radiopharmaceuticals Drug
Table 1-27: Strontium-89 Investigation Properties as Radiopharmaceuticals Drug
Table 1-28: Technetium-99m Investigation Properties as Radiopharmaceuticals Drug
Table 1-29: Thallium-201 Investigation Properties as Radiopharmaceuticals Drug
Table 1-30: Xenon-133 Investigation Properties as Radiopharmaceuticals Drug
Table 1-31: Yttrium-90 Investigation Properties as Radiopharmaceuticals Drug

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