Microbeam
Encyclopedia
A microbeam is a narrow beam of radiation
, of micrometer
or sub-micrometer dimensions. Together with integrated imaging techniques, microbeams allow precisely defined quantities of damage to be introduced at precisely defined locations. Thus, the microbeam is a tool for investigators to study intra- and inter-cellular mechanisms of damage signal transduction
.
A schematic of microbeam operation is shown on the right. Essentially, an automated imaging system locates user-specified targets, and these targets are sequentially irradiated, one by one, with a highly-focused radiation beam. Targets can be single cells
, sub-cellular locations
, or precise locations in 3D tissues. Key features of a microbeam are throughput, precision, and accuracy
. While irradiating targeted regions, the system must guarantee that adjacent locations receive no energy deposition.
Additionally, microbeams were seen as ideal vehicles to investigate the mechanisms of radiation response.
. Charged particle microbeams could probe the radiation sensitivity of the nucleus, which at the time appeared not to be uniformly sensitive. Experiments performed at microbeam facilities have since shown the existence of a bystander effect
. A bystander effect is any biological response to radiation in cells or tissues that did not experience a radiation traversal. These "bystander" cells are neighbors of cells that have experienced a traversal. The mechanism for the bystander effect is believed to be due to cell-to-cell communication. The exact nature of this communication is an area of active research for many groups.
exposure, cancer
risk estimation involves epidemiological studies of uranium miners. These miners inhale radon gas, which then undergoes radioactive decay
, emitting an alpha particle
This alpha particle traverses the cells of the bronchial epithelium, potentially causing cancer. The average lifetime radon exposure
of these miners is high enough that cancer risk estimates are driven by data on individuals whose target bronchial cells are subjected to multiple alpha particle traversals. On the other hand, for an average house occupant, about 1 in 2,500 target bronchial cells will be exposed per year to a single alpha particle, but less than 1 in 107 of these cells will experience traversals by more than one particle. Therefore, in order to extrapolate from miner to environmental exposures, it is necessary to be able to extrapolate from the effects of multiple traversals to the effects of single traversals of a particle.
Due to the random distribution
of particle tracks, the biological effects of an exact number (particularly one) of particles cannot practically be simulated in the laboratory using conventional broadbeam exposures. Microbeam techniques can overcome this limitation by delivering an exact number (one or more) of particles per cell nucleus. True single-particle irradiations should allow measurement of the effects of exactly one alpha particle traversal, relative to multiple traversals. The application of such systems to low frequency processes such as oncogenic transformation depends very much on the technology involved. With an irradiation rate of at least 5,000 cells per hour, experiments with yields of the order of 10-4 can practically be accomplished. Hence, high throughput is a desired quality for microbeam systems.
the beam with pinhole apertures or with a drawn capillary. Sub-micrometre beam spot sizes have been achieved by focusing the beam using various combinations of electrostatic or magnetic lenses. Both methods are used at present.
a few micrometres thick or 100-500 nm thick Silicon nitride
.
so that their position can be determined by the imaging system.
s are used to focus characteristic x rays
generated from a target hit by a charged particle beam. When using synchrotron x-rays as a source, x-ray microbeam can be obtained by cutting the beam with a precise slit system due to high directionality of synchrotron radiation
.
, mutations, and chromosomal aberrations.
Radiation
In physics, radiation is a process in which energetic particles or energetic waves travel through a medium or space. There are two distinct types of radiation; ionizing and non-ionizing...
, of micrometer
Micrometre
A micrometer , is by definition 1×10-6 of a meter .In plain English, it means one-millionth of a meter . Its unit symbol in the International System of Units is μm...
or sub-micrometer dimensions. Together with integrated imaging techniques, microbeams allow precisely defined quantities of damage to be introduced at precisely defined locations. Thus, the microbeam is a tool for investigators to study intra- and inter-cellular mechanisms of damage signal transduction
Signal transduction
Signal transduction occurs when an extracellular signaling molecule activates a cell surface receptor. In turn, this receptor alters intracellular molecules creating a response...
.
A schematic of microbeam operation is shown on the right. Essentially, an automated imaging system locates user-specified targets, and these targets are sequentially irradiated, one by one, with a highly-focused radiation beam. Targets can be single cells
Cell (biology)
The cell is the basic structural and functional unit of all known living organisms. It is the smallest unit of life that is classified as a living thing, and is often called the building block of life. The Alberts text discusses how the "cellular building blocks" move to shape developing embryos....
, sub-cellular locations
Organelle
In cell biology, an organelle is a specialized subunit within a cell that has a specific function, and is usually separately enclosed within its own lipid bilayer....
, or precise locations in 3D tissues. Key features of a microbeam are throughput, precision, and accuracy
Accuracy and precision
In the fields of science, engineering, industry and statistics, the accuracy of a measurement system is the degree of closeness of measurements of a quantity to that quantity's actual value. The precision of a measurement system, also called reproducibility or repeatability, is the degree to which...
. While irradiating targeted regions, the system must guarantee that adjacent locations receive no energy deposition.
History
The first microbeam facilities were developed in the mid-90s. These facilities were a response to challenges in studying radiobiological processes using broadbeam exposures. Microbeams were originally designed to address two main issues:- The belief that the radiation-sensitivity of the nucleusCell nucleusIn cell biology, the nucleus is a membrane-enclosed organelle found in eukaryotic cells. It contains most of the cell's genetic material, organized as multiple long linear DNA molecules in complex with a large variety of proteins, such as histones, to form chromosomes. The genes within these...
was not uniform, and - The need to be able to hit an individual cell with an exact number (particularly one) of particles for low dose risk assessment.
Additionally, microbeams were seen as ideal vehicles to investigate the mechanisms of radiation response.
Radiation-sensitivity of the cell
At the time it was believed that radiation damage to cells was entirely the result of damage to DNADNA
Deoxyribonucleic acid is a nucleic acid that contains the genetic instructions used in the development and functioning of all known living organisms . The DNA segments that carry this genetic information are called genes, but other DNA sequences have structural purposes, or are involved in...
. Charged particle microbeams could probe the radiation sensitivity of the nucleus, which at the time appeared not to be uniformly sensitive. Experiments performed at microbeam facilities have since shown the existence of a bystander effect
Bystander effect
The bystander effect or Genovese syndrome is a social psychological phenomenon that refers to cases where individuals do not offer any means of help in an emergency situation to the victim when other people are present...
. A bystander effect is any biological response to radiation in cells or tissues that did not experience a radiation traversal. These "bystander" cells are neighbors of cells that have experienced a traversal. The mechanism for the bystander effect is believed to be due to cell-to-cell communication. The exact nature of this communication is an area of active research for many groups.
Irradiation with an exact number of particles
At the low doses of relevance to environmental radiation exposure, individual cells only rarely experience traversals by an ionizing particle and almost never experience more than one traversal. For example, in the case of domestic radonRadon
Radon is a chemical element with symbol Rn and atomic number 86. It is a radioactive, colorless, odorless, tasteless noble gas, occurring naturally as the decay product of uranium or thorium. Its most stable isotope, 222Rn, has a half-life of 3.8 days...
exposure, cancer
Cancer
Cancer , known medically as a malignant neoplasm, is a large group of different diseases, all involving unregulated cell growth. In cancer, cells divide and grow uncontrollably, forming malignant tumors, and invade nearby parts of the body. The cancer may also spread to more distant parts of the...
risk estimation involves epidemiological studies of uranium miners. These miners inhale radon gas, which then undergoes radioactive decay
Radioactive decay
Radioactive decay is the process by which an atomic nucleus of an unstable atom loses energy by emitting ionizing particles . The emission is spontaneous, in that the atom decays without any physical interaction with another particle from outside the atom...
, emitting an alpha particle
Alpha particle
Alpha particles consist of two protons and two neutrons bound together into a particle identical to a helium nucleus, which is classically produced in the process of alpha decay, but may be produced also in other ways and given the same name...
This alpha particle traverses the cells of the bronchial epithelium, potentially causing cancer. The average lifetime radon exposure
Radiation poisoning
Acute radiation syndrome also known as radiation poisoning, radiation sickness or radiation toxicity, is a constellation of health effects which occur within several months of exposure to high amounts of ionizing radiation...
of these miners is high enough that cancer risk estimates are driven by data on individuals whose target bronchial cells are subjected to multiple alpha particle traversals. On the other hand, for an average house occupant, about 1 in 2,500 target bronchial cells will be exposed per year to a single alpha particle, but less than 1 in 107 of these cells will experience traversals by more than one particle. Therefore, in order to extrapolate from miner to environmental exposures, it is necessary to be able to extrapolate from the effects of multiple traversals to the effects of single traversals of a particle.
Due to the random distribution
Poisson distribution
In probability theory and statistics, the Poisson distribution is a discrete probability distribution that expresses the probability of a given number of events occurring in a fixed interval of time and/or space if these events occur with a known average rate and independently of the time since...
of particle tracks, the biological effects of an exact number (particularly one) of particles cannot practically be simulated in the laboratory using conventional broadbeam exposures. Microbeam techniques can overcome this limitation by delivering an exact number (one or more) of particles per cell nucleus. True single-particle irradiations should allow measurement of the effects of exactly one alpha particle traversal, relative to multiple traversals. The application of such systems to low frequency processes such as oncogenic transformation depends very much on the technology involved. With an irradiation rate of at least 5,000 cells per hour, experiments with yields of the order of 10-4 can practically be accomplished. Hence, high throughput is a desired quality for microbeam systems.
Charged particle microbeam
The first microbeam facilities delivered charged particles. A charged particle microbeam facility must meet the following basic requirements:- The beam spot size should be on the order of a few micrometres or smaller, corresponding to cellular or sub-cellular dimensions.
- Irradiations of living cells should take place at atmospheric pressure.
- Beam current must be reduced to levels such that targets may be irradiated with an exact number of particles with high reproducibilityReproducibilityReproducibility is the ability of an experiment or study to be accurately reproduced, or replicated, by someone else working independently...
. - An imaging system is required to visualize and register cellular targets.
- Cell positioning must have high spatial resolution and reproducibilityReproducibilityReproducibility is the ability of an experiment or study to be accurately reproduced, or replicated, by someone else working independently...
in order that the ion beam hit the target with a high degree of accuracy and precisionAccuracy and precisionIn the fields of science, engineering, industry and statistics, the accuracy of a measurement system is the degree of closeness of measurements of a quantity to that quantity's actual value. The precision of a measurement system, also called reproducibility or repeatability, is the degree to which...
. - A particle detectorParticle detectorIn experimental and applied particle physics, nuclear physics, and nuclear engineering, a particle detector, also known as a radiation detector, is a device used to detect, track, and/or identify high-energy particles, such as those produced by nuclear decay, cosmic radiation, or reactions in a...
with high efficiency must count the number of particles per target and switch off the beam after the desired number of particles have been delivered. - Environmental conditions (humidity, for example) for cells must be maintained such that cells are under little or no stress.
Beam spot size
Beam spots with diameter down to about two micrometres can be obtained by collimatingCollimator
A collimator is a device that narrows a beam of particles or waves. To "narrow" can mean either to cause the directions of motion to become more aligned in a specific direction or to cause the spatial cross section of the beam to become smaller.- Optical collimators :In optics, a collimator may...
the beam with pinhole apertures or with a drawn capillary. Sub-micrometre beam spot sizes have been achieved by focusing the beam using various combinations of electrostatic or magnetic lenses. Both methods are used at present.
Vacuum window
A vacuum window is necessary in order to perform microbeam experiments on living cells. Generally, this is accomplished with the use of a vacuum-tight window of a polymerPolymer
A polymer is a large molecule composed of repeating structural units. These subunits are typically connected by covalent chemical bonds...
a few micrometres thick or 100-500 nm thick Silicon nitride
Silicon nitride
Silicon nitride is a chemical compound of silicon and nitrogen. If powdered silicon is heated between 1300° and 1400°C in an atmosphere of nitrogen, trisilicon tetranitride, Si3N4, is formed. The silicon sample weight increases progressively due to the chemical combination of silicon and nitrogen...
.
Cell registration and positioning
Cells must be identified and targeted with a high degree of accuracy. This can be accomplished using cell staining and fluorescence microscopy or without staining through the use of techniques such as quantitative phase microscopy or phase contrast microscopy. Ultimately, the objective is to recognize cells, target them, and move them into position for irradiation as fast as possible. Throughputs of up to 15,000 cells per hour have been achieved.Particle counters
Particles must be counted with a high degree of detection efficiency in order to guarantee that a specific number of ions are delivered to a single cell. Generally, detectors can be placed before or after the target to be irradiated. If the detector is placed after the target, the beam must have sufficient energy to traverse the target and reach the detector. If the detector is placed before the target, the detector must have a minimal effect on the beam. When the desired number of particles are detected, the beam is either deflected or shut off.Other considerations
Living cells must be maintained under conditions that do not stress the cell, causing an unwanted biological response. Additionally, cells must be attached to a substrateSubstrate (biology)
In biology a substrate is the surface a plant or animal lives upon and grows on. A substrate can include biotic or abiotic materials and animals. For example, encrusting algae that lives on a rock can be substrate for another animal that lives on top of the algae. See also substrate .-External...
so that their position can be determined by the imaging system.
X-ray microbeam
Some facilities have developed or are developing soft x-ray microbeams. In these systems, zone plateZone plate
A zone plate is a device used to focus light or other things exhibiting wave character. Unlike lenses or curved mirrors however, zone plates use diffraction instead of refraction or reflection. Based on analysis by Augustin-Jean Fresnel, they are sometimes called Fresnel zone plates in his honor...
s are used to focus characteristic x rays
Characteristic x-ray
A high energy electron interacts with a bound electron in an atom and ejects it. The incident electron is scattered and the target electron gets displaced from its shell. The incident electron energy must exceed the binding energy of the electron to eject it...
generated from a target hit by a charged particle beam. When using synchrotron x-rays as a source, x-ray microbeam can be obtained by cutting the beam with a precise slit system due to high directionality of synchrotron radiation
Synchrotron radiation
The electromagnetic radiation emitted when charged particles are accelerated radially is called synchrotron radiation. It is produced in synchrotrons using bending magnets, undulators and/or wigglers...
.
Biological endpoint
Many biological endpoints have been studied including oncogenic transformation, apoptosisApoptosis
Apoptosis is the process of programmed cell death that may occur in multicellular organisms. Biochemical events lead to characteristic cell changes and death. These changes include blebbing, cell shrinkage, nuclear fragmentation, chromatin condensation, and chromosomal DNA fragmentation...
, mutations, and chromosomal aberrations.
Microbeam systems worldwide
| Microbeam Facilities Worldwide | Radiation Type/LET | Beam Spot Size on Cell | Running Biology? | |
|---|---|---|---|---|
| Radiological Research Accelerator Facility (RARAF), Columbia University | any cation, x rays low to very high |
0.6 μm | yes | |
| JAERI, Takasaki, Japan | high |
yes | ||
| Special Microbeam Utilization Research Facility (SMURF), Texas A&M | low |
no | ||
| Superconducting Nanoscope for Applied nuclear (Kern-)physics Experiments (SNAKE), University of Munich | From p to HI 2-10000 keV/μm |
0.5 μm | yes | |
| INFN-LNL, Legnaro, Italy | p, 3He+,++,4He+,++ 7-150 keV/μm |
10 μm | ||
| CENBG, Bordeaux, France | p, α Up to 3.5 MeV |
10 μm | ||
| GSI, Darmstadt, Germany | From α to U-ions Up to 11.4 MeV/n |
0.5 μm | yes | |
| IFJ, Cracow, Poland | p - Up to 2.5 MeV x ray - 4.5 keV |
12 μm 5 μm |
yes | |
| LIPSION, Leipzig, Germany | p, 4He+,++ Up to 3 MeV |
0.5 μm | yes | |
| Lund NMP, Lund, Sweden | p Up to 3 MeV |
5 μm | ||
| CEA-LPS, Saclay, France | p 4He+,++ Up to 3.75 MeV |
10 μm | yes | |
| Queen's University, Belfast, Northern Ireland UK | x ray 0.3-4.5 keV |
< 1 μm | yes | |
| University of Surrey, Guilford, UK | p, α, HI | 0.01 μm (in vacuum) | yes | |
| PTB, Braunschweig, Germany | p, α 3-200 keV/μm |
< 1 μm | yes | |
| SPICE, NIRS, Japan | p 3.4 MeV |
5 μm | yes | |
| W-MAST, Tsuruga, Japan | p, He | 10 μm | no | |
| McMaster University, Ontario, Canada | no | |||
| Nagasaki University, Nagasaki, Japan | x-rays 0.3-4.5 keV |
< 1 μm | yes | |
| Photon Factory, KEK, Japan | x-rays 4-20 keV |
5 μm | yes | |
| CAS-LIBB, Institute of Plasma Physics, CAS, Hefei, China | p 2-3 MeV |
5 μm | yes | |
| Centro Atómico Constituyentes, CNEA, Buenos Aires, Argentina | to H from U 15 MeV |
5 μm | yes | |
| FUDAN University, Shanghai, China | p,He 3 MeV |
2 μm (in building) | yes | |
| Institute of Modern Physics CAS, Lanzhou, China |
Microbeam Workshops
There have been nine international workshops, held approximately once every two years, on Microbeam Probes of Cellular Radiation Response. These workshops serve as an opportunity for microbeam personnel to come together and share ideas. The proceedings of the workshops serve as an excellent reference on the state of microbeam-related science.| International Workshops on Microbeam Probes of Cellular Radiation Response | Year | Number of Microbeams |
|---|---|---|
| Gray Laboratory, London | 1993 | 3 |
| Pacific Northwest Labs, Washington | 1995 | 3 |
| Columbia University, New York | 1997 | 4 |
| Dublin, Ireland | 1999 | 7 |
| Stresa, Italy | 2001 | 12 |
| Oxford, England | 2003 | 17 |
| Columbia University, New York | 2006 | 28 |
| NIRS, Chiba, Japan | 2008 | 31 |
| GSI, Darmstadt, Germany | 2010 | |
| Columbia University, New York | 2012 |