Neutron capture therapy (NCT) is a form of cancer treatment that utilizes the unique interaction between neutrons and specific isotopes of certain elements to selectively destroy cancer cells. The therapy leverages the principle of neutron capture reactions, particularly the absorption of neutrons by certain nuclei, which can lead to the emission of high-energy particles, such as alpha particles or gamma rays, that can damage cancer cells.
Nuclear pharmacy is a specialized field of pharmacy that focuses on the preparation, dispensing, and safe handling of radiopharmaceuticals—drugs that contain radioactive substances used for diagnosis, treatment, and research in medicine. These radiopharmaceuticals are commonly used in nuclear medicine, a branch of medicine that employs radiotracers to visualize and diagnose diseases, particularly in areas such as oncology, cardiology, and neurology.
An Oncology Information System (OIS) is a specialized software platform designed to manage the unique and complex data related to cancer treatment and care. These systems are essential in oncology practices to facilitate efficient patient management and improve the quality of care for cancer patients. Key features and functions of an OIS typically include: 1. **Patient Management**: OIS helps in tracking patient demographics, medical history, treatment plans, and follow-up care, allowing healthcare professionals to have comprehensive patient profiles.
The term "Oxygen effect" can refer to various phenomena in different scientific contexts, but it is most commonly associated with cancer biology and radiobiology. Here are a couple of interpretations of the term: 1. **Radiation Therapy**: In the context of cancer treatment, the "Oxygen Effect" describes the enhanced sensitivity of tumors to radiation in the presence of oxygen.
PET-CT, or Positron Emission Tomography-Computed Tomography, is a medical imaging technique that combines two different imaging modalities: PET and CT. 1. **Positron Emission Tomography (PET)**: This technique uses a small amount of radioactive material (radiotracer) that is injected into the body. The radiotracer emits positrons, which are detected by the PET scanner to produce images that reflect the metabolic activity of tissues.
Positron Emission Tomography (PET) for bone imaging is a diagnostic imaging technique that uses radioactive tracers to visualize metabolic processes in the body. Specifically, in the context of bone imaging, PET is often used to assess bone health, detect tumors, evaluate infection, and monitor the metabolism of bone tissue.
Particle therapy, also known as charged particle therapy, is an advanced form of radiation therapy used primarily in cancer treatment. Unlike conventional radiation therapy that uses X-rays (photons), particle therapy utilizes charged particles, such as protons or heavier ions like carbon, to deliver radiation to tumors. ### Key Features of Particle Therapy: 1. **Precision**: Particle therapy provides more precise targeting of tumors while sparing surrounding healthy tissues.
A passive dual coil resonator is a type of resonant circuit that comprises two inductive coils (or inductors) arranged in a specific configuration to create resonance at a particular frequency. These circuits are commonly used in various applications involving resonance, such as in radio frequency (RF) systems, wireless power transfer, and electromagnetic field sensing.
Pencil-beam scanning is a technique used in radiation therapy, particularly in proton therapy, for the precise delivery of radiation to tumors while minimizing exposure to surrounding healthy tissues. This method involves using a narrow, focused beam of protons (or other charged particles) that can be accurately directed to specific locations within a tumor. ### Key Aspects of Pencil-Beam Scanning: 1. **Precision Targeting**: The pencil-beam is small in diameter, allowing for highly precise targeting of tumors.
Peptide receptor radionuclide therapy (PRRT) is a form of targeted cancer treatment that utilizes radioactive substances attached to peptides—short chains of amino acids that can bind to specific receptors on the surface of certain cancer cells. This therapy is primarily used to treat neuroendocrine tumors (NETs), which are tumors that arise from neuroendocrine cells and often express specific receptors such as somatostatin receptors.
The Percentage Depth Dose (PDD) curve is an important concept in radiation therapy that describes how the dose of radiation delivered by a therapy beam decreases with increasing depth in a given medium, such as tissue. This curve is essential for understanding how radiation penetrates and interacts with the tissues of the body.
Perfusion scanning is a medical imaging technique used to assess blood flow to various tissues and organs in the body. It helps in evaluating the perfusion (the passage of fluid through the circulatory system) in areas like the heart, brain, and other vital organs. ### Key Aspects of Perfusion Scanning: 1. **Purpose**: The primary purpose is to detect abnormalities in blood flow that may indicate conditions such as ischemia (reduced blood flow), tumors, or other vascular disorders.
Pertechnetate, specifically known as sodium pertechnetate, is a chemical compound with the formula NaTcO₄. It is the sodium salt of pertechnetic acid (H₄TcO₄) and contains the technetium isotope Tc-99m, which is widely used in nuclear medicine.
Photodynamic therapy (PDT) is a medical treatment that utilizes light-activated compounds to treat various conditions, including certain types of cancer, skin disorders, and age-related macular degeneration. The therapy involves three key components: 1. **Photosensitizer**: This is a special drug that is administered to the patient and accumulates in the target tissue. Photosensitizers are typically non-toxic before they are activated by light.
Photomedicine is a field of medicine that involves the use of light to diagnose, treat, and prevent various medical conditions. It encompasses a range of therapies that utilize different types of light, including visible light, lasers, and other forms of electromagnetic radiation. Key applications of photomedicine include: 1. **Phototherapy**: This includes treatments like light therapy for skin conditions such as psoriasis, eczema, and acne. In this context, ultraviolet (UV) light is often used.
Photothermal therapy (PTT) is a minimally invasive treatment method that utilizes light-absorbing agents, often in the form of nanoparticles, to convert light energy into heat. This heat can selectively destroy targeted cells, such as cancer cells, while minimizing damage to surrounding healthy tissue. The therapy is typically induced by shining near-infrared (NIR) light onto the treatment area, which penetrates the tissue and is absorbed by the nanoparticles.
Positron Emission Tomography (PET) is a medical imaging technique that helps visualize and measure metabolic processes in the body. It is often used in clinical and research settings to assess conditions such as cancer, neurological disorders, and cardiovascular diseases. Here's how PET works: 1. **Radiotracer Injection**: A small amount of a radioactive substance, called a radiotracer, is introduced into the body, usually via injection.
Preclinical imaging refers to a set of imaging techniques used to visualize biological processes in animal models (usually small animals like mice or rats) prior to human clinical trials. This field is crucial in biomedical research as it allows scientists to study disease mechanisms, evaluate therapeutic interventions, and monitor treatment responses in vivo. Preclinical imaging helps bridge the gap between basic science and clinical application by providing insights into the efficacy and safety of new drugs and therapies.
Prostate brachytherapy is a form of radiation therapy used to treat prostate cancer. It involves placing radioactive seeds directly into or near the prostate gland to deliver targeted radiation to cancerous tissues while minimizing exposure to surrounding healthy tissues. ### Key characteristics of prostate brachytherapy include: 1. **Minimally Invasive**: The procedure is typically performed under local anesthesia and sedatives, and can often be done on an outpatient basis.
Proton computed tomography (pCT) is an advanced imaging technique that utilizes protons instead of traditional X-rays to create detailed cross-sectional images of objects, particularly in the context of medical imaging. This method leverages the interactions between protons and matter, providing unique advantages when it comes to imaging tissues, especially for cancer treatment and radiation therapy planning. Key characteristics of proton computed tomography include: 1. **Proton Sources**: pCT typically employs proton beams generated by particle accelerators.