Mobile Gamma Cameras Market is an Advancing Imaging Technology for Flexible Medical Diagnostics, says Market.us

Mobile gamma cameras are portable medical imaging devices that use gamma rays to produce images of organs and tissues in the body. They are designed to be easily transported from one location to another, making them particularly useful for patients who are unable to travel to medical facilities or who require imaging services in the field. 

Mobile gamma cameras are typically used in a variety of medical specialties, including cardiology, oncology, and neurology. They are particularly useful for imaging applications such as myocardial perfusion imaging, bone scintigraphy, and sentinel node detection.

According to the latest report by Market.us, “The size of the global mobile gamma cameras market was valued at approximately USD 57.5 million in 2022 and is expected to reach USD 89.1 million growing at a CAGR of around 4.6% from 2023 to 2032.” 

The growth of the market can be attributed to the increasing demand for portable medical imaging devices and the development of advanced imaging technologies. The COVID-19 pandemic has also accelerated the adoption of mobile gamma cameras, as they have been used for the diagnosis and management of COVID-19 patients.

Anurag Sharma, senior research analyst at market.us said, “The development of advanced mobile gamma cameras that offer improved image quality and diagnostic accuracy is driving the growth of the market.” 

Advancements in imaging technology, such as the use of solid-state detectors, are also contributing to the growth of the market. The global prevalence of chronic diseases such as cancer, cardiovascular diseases, and neurological disorders is increasing. This is driving the demand for medical imaging devices such as mobile gamma cameras, which can be used for the diagnosis and monitoring of these diseases. 

Telemedicine is becoming increasingly popular as a way to provide medical care remotely. Mobile gamma cameras can be used to perform remote imaging and diagnosis, making them an important tool for telemedicine. The demand for portable medical imaging devices is increasing due to their convenience, cost-effectiveness, and versatility. Mobile gamma cameras offer these benefits, making them a popular choice for medical facilities and healthcare providers. 

Patient-centered care is becoming an important focus for healthcare providers, with an emphasis on providing personalized care that is convenient for patients. Mobile gamma cameras offer a convenient and flexible imaging solution that can be used in a variety of settings, contributing to the growth of the market.

They typically have lower spatial resolution than fixed gamma cameras, which can make it more difficult to detect small lesions. They also have limited availability, as there are fewer mobile gamma cameras in operation compared to fixed gamma cameras. Despite these limitations, the use of mobile gamma cameras is expected to continue to grow in the coming years. Factors such as the increasing demand for portable medical imaging devices, the rising incidence of chronic diseases, and the growing popularity of telemedicine are expected to drive the growth of this market.

Mobile gamma cameras are increasingly being integrated with other medical technologies such as CT and MRI scanners to improve the accuracy and efficiency of medical imaging. This integration allows for more comprehensive diagnostic imaging, leading to better patient outcomes. 

There is a growing trend toward the development of compact and lightweight mobile gamma cameras that are easy to transport and use. These devices offer greater flexibility and convenience, particularly in remote locations. 

Mobile gamma cameras are increasingly being used in veterinary medicine for the diagnosis and treatment of animals. The use of these devices in veterinary medicine is expected to grow in the coming years, particularly in the fields of oncology and cardiology. 

Solid-state detectors offer several advantages over traditional photomultiplier tubes, including improved image quality and reduced radiation exposure. The adoption of solid-state detectors is expected to increase in the coming years, contributing to the growth of the mobile gamma cameras market. 

The use of AI in medical imaging is becoming increasingly common, and mobile gamma cameras are no exception. AI can help improve the accuracy and efficiency of medical imaging, leading to better patient outcomes. The integration of AI with mobile gamma cameras is expected to increase in the coming years.

Mobile gamma cameras are often more expensive than traditional fixed gamma cameras, which can make them less accessible to healthcare providers and patients. There are fewer mobile gamma cameras in operation compared to fixed gamma cameras, which can limit their availability and accessibility to patients. 

The use of mobile gamma cameras involves exposure to ionizing radiation, which can pose risks to patients and healthcare workers. The potential risks associated with radiation exposure may limit the adoption of mobile gamma cameras in certain healthcare settings.

The detector is the primary component of a mobile gamma camera, which detects the gamma rays emitted by the radiopharmaceuticals that have been administered to the patient. The detector can be based on traditional photomultiplier tube (PMT) technology or newer solid-state detector technology. 

The collimator is a component of the gamma camera that shapes the gamma-ray beam into a narrow cone, which allows for more accurate and detailed imaging of the area of interest. 

Mobile gamma cameras are typically operated by a trained healthcare professional, who administers the radiopharmaceuticals and positions the camera for imaging. The images produced by the camera are used for diagnostic purposes, such as identifying cancerous tumors, assessing heart function, or monitoring brain activity.