X-Ray Markers (5/8" L&R) No Initials

Top 10 Xray Markers Should Buy

Xray Markers

Xray Markers, also referred to as: anatomical side markers, 1 Pb markers, lead markers, x-ray lead markers, or radiographic film identification markers, are designed to mark x-ray films, both in hospitals and in industrial workplaces (like on aeroplane parts and motors). They’re applied on radiographic images to see an anatomical side of the body, date from the procedure, and can include patients name.

Most Xray markers consist of the right and also a left letter using the radiographer’s initials. There can also be found markers to indicate positioning from the body e. g. supine, or on time when performing procedures like an Intravenous pyelogram.

It really has been suggested that radiographic markers are a possible fomite for harmful bacteria like MRSA, which they ought to clean regularly; this, however, Isn’t always done.

Some Xray markers are created with cartoon pictures or glitter included upon the markers. This style marker, referred to as max markers, indicate right or left side also includes a technologists initials. Most importantly a tacky substance, Handi-Tak is designed to carry these markers towards the X-ray plate during imaging. This Tacky tape ought to clean between uses and discarded when visibly soiled. Read : Radiology Markers

What is X-ray?

X-rays are one of the electromagnetic waves which are lights that we can see. But the wavelength of the X-ray is so small that the frequency of the X-ray is very large and the energy it has is very large. X-rays have long sizes ranging from 0.01 to 10 nanometers with frequencies ranging from 30 mapsHertz to 30 exaHertz and have energy ranging from 120 electrodes to 120 kilos of electroVolt.

How does xray work?

The xray shows the xray as a formation of an orderly triangular pattern such as those produced in the focusing tititk. This provides a good purpose in terms of emphasis on the work of xray radiation outside the tube. But the actual radiation is not like that, in fact the xray is like a visible light.

Spread from source through a straight line that spreads in all directions except stopped by xray absorbent material. For this reason the xray tube is closed in a single metal tube housing capable of stopping most of the xray radiation. Only useful xray are left out of the tube through a window / window.

The useful xray was referred to as the primary file. The ray beam located at the center of the line is called central xray. High voltage generation in the xray tube is required to generate xray files. The electrical circuit is designed so that its kV can be changed in a large range – typically 30 kV to 100 kV- or more. When lower kV is used, the xray has longer wavelengths and is more easily absorbed so-called soft xray. It must be understood that the xray file consists of rays of different wavelengths. The radiation generated in the higher kV range will have greater energy and shorter wavelengths.

Application of xray

The application of xray was first used in the security and guarding sectors. Generally explored on the security of government buildings, malls, hotels, military training environment, apartments, airports, ports etc. therefore the X-ray sensor is helpful in the detection and identification process.

The process of X-ray formation?

In order for X-rays to be formed, the following components are required:
• X-Ray tube
It functions to produce X-rays which is a vacuum tube in which there is a negatively charged cathode that acts as an electron generator and a positively charged Anode that serves as a target of electron firing.
• Source electron (filament)
Filament serves as an electron producer
• High voltage electricity.

The process of X-ray formation:

1. Filament is heated to produce electrons, by passing an electric current on the filament. After the filament is incandescent, the heat of the electrons from the cathode (filament) is released so that the electron clouds form around the filament.
2. Once the electrons are formed on the filaments, the X-ray tube is given a high voltage up to thousands of volts (kilovolt) so that it triggers the electrons to move to the anode.
3. The fired electrons will hit the target and will interact with the atoms of the target. The electron interaction with the target (anode) will cause the formation of heat (99%) and X-ray (1%).

Type of Xray markers

 

  1. XRay Markers Holdersmarkers holderAvailable in six attractive colors.
    Made in USA
    DetailsXray markers Marker holders and marker keepers. Convenient four-pouch holder for the markers. Handy swivel clip attaches the Marker Holder within your belt, lapel, pockets, etc. Made of durable vinyl having a steel clip. Available in six colors. For use with Elite, Identifier, Personal Touch, Skull, Fish, Arrow, Photo markers and Position Indicator Markers.
  2. Marker Mates Reusable Marker AttachmentGet rid of need for tape.
    In stock and can also ship next business day.
    Made in USA
    Detailsxray markers
    Xray markers  Marker Mates. A reusable sticky strip that you just peel from the protective film and tie in with the rear of your respective x-ray markers. No sticky residue. Get rid of need for tape. May be cut to adjust to custom shapes & sizes. Will adhere to aluminum (Elite style) and polystyrene casing (Identifier style) markers. Marker “Mates” are 1. 5”L x. 75”w, are available in one pack of 2 easy peel “Mates” that could fit all markers. So thin, you are able to hardly see them! One group of “mates” should last you approximately 30 days.
  3. X-Ray Markers (5/8″ L & R)
    Personalized markers are not returnable.
    Made in USA
    These markers can be used with our MARKER HOLDERS.
    Check out our new MARKER MATES marker attachments. No more need for tape.

    Details

    X-Ray lead markers. The L & R are 5/8″ letters. The overall size of the x-ray marker is 1″ x 1 3/4″. X-Ray markers can be personalized with 2-3 initials/numbers.

  4. X-Ray Markers (1/2″ R & L)darkblue
    Personalized x-ray markers are not returnable.
    Made in USA
    These markers can be used with our MARKER HOLDERS.
    Check out our new MARKER MATES marker attachments. No more need for tape.

    Details

    X-Ray lead marker 1/2 inch r and l. Our x-ray markers produce crisp sharp images. All of lead x-ray markers are available as x-ray markers with initials or x-ray marker sets with no initials. The R&L lead letter in each marker is 1/2″. The overall size of the marker is 7/8″ x 1 5/8″. Markers can be personalized with 2-3 initials/numbers.;

  5. X-Ray Markers Identifier PlusPersonalized markers are not returnable.
    Made in USA
    X-Ray Markers Identifier Plus

    Details

    NEW Identifier style marker that allows two lines of identification. Perfect for the student x-ray tech. One line for your initials and one line to identify a school, department or whatever else you need. These markers are manufactured with a high impact polystyrene casing.

  6. X-Ray Markers (5/8″ L&R) No Initials 

    Details

     

    X-Ray Markers (5/8" L&R) No InitialsOur Personal Touch line of lead free markers with no initials available as a blue & red color coded set. The R&L lead letter in each marker is 5/8″. The overall size of the marker is 1″ x 1 3/4″.

10 Best Radiology Markers Available on Market

Radiology Markers

In the inspection roses, each radiographer must include an appropriate marker and clearly identify the patient’s body part, right side (R) or left (L) of the patient’s body. In radioglast are obliged to include marker correctly as radiology markers of a body part of the patient. A radiographer and physician should see the markers to determine the right limb or body part. The marker itself is usually made of tin and placed directly on the IR. The marker looks opaque (white) on the radiographic image along with the body part being examined. Marking markers should not write “R” or “L” hands on radiographs after processing. However, there are exceptions to the use of markers for certain projections made during the surgical procedure. Often, a radiograph that does not contain markers that lead to accurate or identification of the patient should be repeated. This will harm the patient because it will increase the dose of radiation that will be absorbed by the body. Therefore, a radiographer should really avoid the error of making the radiograph, one of which the use of markers.

In the Radiology examination activity, a marker is one important component in making a radiograph. Common markers are used to indicate “The photographed side”, indicating the position of the object when it is being photographed, or even the sequence and the phases of the shooting is performed.

Picture Marker and Patient Identification

In Radiography there are at least two types of markers or markers that should be printed on a radiograph. The two types of markers include (1) Patient Identity along with date of radiograph manufacture (2) Anatomical Side Marker

Patient Identity Marker and Date of Radiograph Making (On Conventional Film-Screen Cassette System)
In general, the patient information listed is the name, date, photo number, and the name of an agency or hospital name. Usually, this identity marker and date are available on index cards which are then “Photoflash” on the film using the light-based ID-based printer. In general, for this marker is provided a little space on the corner of the end of a conventional cassette that is covered by “Lead Block” in the film holder. Each tape or film holder must have an outside marker indicating or indicating the location of the patient’s marker ID placement, including the date of manufacture of the radiograph.

In making the radiograph, the cassette portion showing the location of the patient’s ID placement should also be noted, so that the area does not cover or disturb the essence of the anatomy to be presented.

radiology markers 2=1

Patient ID Marker Location Locations

In the technique of giving or attaching the marker text, the location of the patient’s marker ID marker also shows a connection to the anatomical portion of the photographed patient. The basic rules for the chest and abdomen are (1) putting the patient ID information at the top of the “Image Receptor” margin for chest examination or “Chests” and (2) for abdominal examination of patient ID information placed at the bottom of “Image Receptor”. This marker or marker always lies in accordance with the body part or essence of the anatomy to be presented.

Anatomical Side Radiology Marker

Radiopaque markers, either Right or Left should always be attached to each radiographic image, and indicate the right or left side of the patient’s body or the part of which body extremities are photographed, Right or Left. The installation of this anatomy side marker may be a full word installation, Right or Left, and can also be installed in the initial “R” or “L”. This anatomical side marker is usually placed directly on the inside of the Image Receptor, or on the “Lateral Portion” in the irradiation field. Please note, the installation of this marker also not to disturb the patient’s anatomy picture presented.

Remember, the Radiopaque Marker should be placed inside the irradiation field, so it can be exposed to the X-ray beam and enter in the radiographing area.

The two markers, both the ID marker and the Date or the anatomy side marker, must be correctly and correctly attached to all radiographic images. In general, it is not justifiable to write information or markers on the radiograph, after the radiograph processing is complete, as this will cause the risk of “Missmarkings”. A radiograph taken or produced without the use of the above two markers allows for repetition of photographs, which only adds a usable radiation dose to the patient.

radiology markers

 

Additional Marker or Identification

For special inspection, additional markers or identification may also be used, for example

(1) Initial Radiographers, in general, these markers are installed, similar to the installation of R and L markers to show radiographers who make radiographs. Sometimes, the inspection room numbers are also listed.

(2) Time Indicators usually used to record the elapsed time in the examination photo series, for example 1 minute, 5 minutes, 15 minutes and 20 minutes. This series photo is usually done on “Intravenous Urogram” (IVU) checking.

example radiology markers

Some Examples of Commonly Used Marker Markers

(3) Other important markers commonly used in radiographic examination by using decubitus position that serves to show the identification of the top side direction. An “Upright” or “Erect” marker should also be used to identify both chest and abdominal photographs made in an upright position. Because the photo with this upright position will be compared to the photo position “Recumbent” or photo lay. And under certain conditions like this, a top-side direction marker is also installed.

(4) Markers in the form of “Inspiration” (INSP) and “Expiration” (EXP)

Here is some radiology markers that avalaible on the market :

Radiology Markers No Initial

Radiology Markers 1 or 2 Initial

 

Note: Pictures are not to size.

The picture shown represents the format in which your marker will be made.

This set contains the following:

  • 2 markers (Your choice of 1/2″ R&L, R&R, or L&L)
  • 1 or 2  5/16″ initials or numbers
  • 1 stainless steel ball position indicator surrounded by a lead free alloy ring that is ultrasoniclly sealed
  • Frame is made of polycarbonate
  • A modified hole to attach markers back to back with a lanyard that has a bulldog clip (lanyard sold separately)
  • Back of the marker reads “RETURN TO RADIOLOGY”, “PbMarker.com”
  • All characters are made of a lead free alloy encased in clear resin

NOTE: Our lead free alloy IS radiopaque, which means that ALL initials, numbers, and any Motif add-ons WILL show on the film.

NOTE: Adding a copper filter will reduce marker burn-out during high kVp exposures. If using low kVp, marker will appear as a white square without characters on the film due to poor penitration.

NOTE: Lanyard(s) are sold separately.

Dimensions*:

  • Length — 2-3/16″
  • Width — 7/8″
  • Depth — 1/4″

*All dimensions given are approximate

http://www.pbmarker.com/2initials.html

Radiology Markers Three Initial 

The picture shown represents the format in which your marker will be made.

This set contains the following:

  • 2 markers (Your choice of 1/2″ R&L, R&R, or L&L)
  • 3  5/16″ initials or numbers
  • 1 stainless steel ball position indicator surrounded by a lead free alloy ring that is ultrasoniclly sealed
  • Frame is made of polycarbonate
  • A modified hole to attach markers back to back with a lanyard that has a bulldog clip (lanyard sold separately)
  • Back of the marker reads “RETURN TO RADIOLOGY”, “PbMarker.com”
  • All characters are made of a lead free alloy encased in clear resin

NOTE: Our lead-free alloy IS radiopaque, which means that ALL initials, numbers, and any Motif add-ons WILL show on the film.

NOTE: Lanyard(s) and Clasp(s) are sold separately.

Dimensions*:

  • Length — 2-3/16″
  • Width — 1″
  • Depth — 1/4″

*All dimensions given are approximate

 Set of A WOMAN IS ALWAYS “RIGHT” X-Ray Marker Set Radiology Lead Xray Girl

Rontgen : History of Radiology

Wilhelm Conrad Roentgen, a physicist at the University of Wurzburg, Germany, first discovered Roentgen rays in 1895 while experimenting with cathode rays. At that time he saw the onset of fluorescence coming from barium platinosianida installed in an electrically powered Crookes-Hittorf tube. He soon realized that this phenomenon was a new discovery that he persistently continued his investigation in the following weeks. Shortly thereafter was a ray called a new ray or X-ray. It was not until later that the ray called the rays of Roentgen as a tribute to Wilhelm Conrad Roentgen.

Wilhelm Conrad Roentgen

The discovery of this Roentgen is a revolution in the medical world because it turns out that the findings can be examined parts of the human body that previously could never be achieved by conventional means. One of the visualizations of Roentgen’s findings is a photograph of his wife’s fingers made with portrait paper placed under his wife’s hands and illuminated with the new light.

Roentgen in subsequent investigations soon found almost all the properties of Roentgen rays, namely their physical and chemical properties. But there is one trait that is not until it is known, namely the biological properties that can damage the living cells. The properties Roentgen finds include that these rays move in a straight line, unaffected by magnetic fields and have stronger penetrating power when higher utility voltages are used, whereas among other properties is that these rays blacken the portrait paper. In addition to his wife’s photographs, there were also the first photographs Roentgen had made in metal boxes, including a pistol and a compass.
A year after Roentgen discovered X-rays, Henri Becquerel, in France, pda in 1895 discovered elements of uranium that had almost the same properties. His discovery was announced at the Paris Academy of Sciences congress that same year. Not long after, Marie and Piere Curie discovered the element of thorium early in 1896, while at the end of the same year the couple discovered a third element called polonium in honor of their home country, Poland. Not long after that they discovered a radium element that emits about 2 million times more radiation than uranium.
Both Roentgen, who in the years after his discovery announced everything he knew about X-rays without the slightest gain, nor did Marie and Piere Curie do the same, receiving the Nobel Prize. Roentgen received in 1901, while Marie and Piere Curie in 1904. In 1911, Marie once again received the Nobel Prize for his research in chemistry. This is the only occasion in which a person gets a Nobel Prize twice. After that, Marie and Piere Curie’s son Irene Curie was also awarded a Nobel Prize in chemistry research with her husband, Joliot in 1931.
As is often the case with new discoveries, not everyone welcomes them with good responses. There are those who are not happy, instead showing excessive negative reactions. A night newspaper in London even said that the new ray that allows people to see other people’s bones as if stripped naked as an impolite. Therefore, it urges all civilized countries to burn all of Roentgen’s works and punish the discoverer’s death.
Another company in London advertises the sale of X-ray-proof pants and skirts, while in New Jersey, the United States, a legal provision prohibits the use of X-rays in operatic glasses. Fortunately these negative voices soon drifted in overflow of praise to the inventor of this ray, which then turned out to be truly a revolution in medical science.
As mentioned above, Roentgen discovers almost all of the physical and chemical properties of the rays he knows, but what is not yet known is his biological nature. This new tattoo is known only a few years later when it appears that the skin can be colored due to irradiation Roentgen. From then on, many scholars have hoped that this ray can also be used for treatment. But at that time it was unthinkable that this ray could harm and damage human life cells. But over time, in the first and second decades of the 20th century, there were many pioneers of Roentgen ray users who became victims of this ray.
Biologic abnormalities caused by Roentgen is in the form of damage to living cells that in its level just a change of color until blackened skin, even sa

What is Radiology

WHAT IS RADIOLOGY

For some people may not know what is radiology, and some even think it’s related to the usual Radio to listen to favorite songs or radio channels. Hmm, sometimes I personally if I hear it feels ‘jleb’ because it is less popular in the Radiology community, but for most of my friends also know about Radiology.

Okay well now I will discuss a bit about “What is Radiology?” Check this out guys: D Radiology is the science of medicine to see the human body parts using radiation or wave radiation, both electromagnetic waves and mechanical waves. Initially the frequency used is x-ray, but modern technological advances use ultrasonic ultrasonography (ultrasonic scanning) such as ultrasonography (ultrasound) and magnetic resonance imaging (MRI).

Radiology itself is divided into two parts namely Radiodiagnostik and Radiotherapy. What’s the difference ?? Gini, if radiodiagnostic is to diagnose the disease by using x-rays, while Radiotherapy for menterapi or treatment of disease using x-ray radiation.

For example for radiodiagnostik, for example you have an accident and have a broken bone, before the surgery then the doctor told to be rontgen first to mendtahui or mendituosa which part of the bone is broken, well this is called as radiodiagnostik.

As for Radiotherapy for example is for patients who suffer from cancer, in this case the cancer will be turned off by radiation therapy with therapy system or gradually that is by way of irradiation of the object of the affected cancer.

For radiation workers referred to as Radiographers, but for radiotherapy workers referred to as Radiotherapists and for ultrasound workers called Sonografer.