Butterworth filter mnemonic (impact of critical frequency and order on resolution and noise)

Transmission factor practice question

Assume there is an initial radiation level of 15 R/hr inside a facility. The walls of the facility are constructed with tungsten, having a 30% transmission factor, and fiberglass, with an 80% transmission factor. How much radiation reaches outside the facility?

Annual radiation dose limit for radiation workers mnemonic

See video here: https://youtube.com/shorts/OgsLHBRZuuI?si=kjLZayyMjmN5hKdj

Sievert and Roentgen equivalent man mnemonic 1 Sv = 100 rem

Applications of indium-111 antimyosin imaging

Applications of indium-111 antimyosin imaging:

Evaluation of the site, extent and quantitation of the severity of myocardial necrosis.

Myocarditis

Uptake  after 1 year post-transplant is associated with an increased rejection rate

Anthracycline treatment - unclear role

Adenosine dose mnemonic for Nuclear Cardiology boards

Molybdenum breakdown limit for technetium at time of administration mnemonic

See video here https://youtube.com/shorts/kCyJ_AYLQcM

Regadenoson mnemonic for Nuclear Cardiology boards

Dipyridamole mnemonic for Nuclear Cardiology boards

PET crystals

https://youtube.com/shorts/KrYSxeF0CqA?si=LdTNJd2aJc4FK0mc

LSO/LYSO has small decay time

Allows for improved coincidence timing

Linear no-threshold model in radiation safety

The most conservative theory of radiation is the "linear no-threshold" (LNT) model. According to this model, there is no safe threshold for exposure to ionizing radiation, and any amount of radiation, no matter how small, has the potential to cause harm. The LNT model assumes a linear relationship between radiation dose and the risk of adverse health effects, extending this linear relationship down to zero dose.

In other words, the LNT model suggests that the risk of radiation-induced health effects, such as cancer, increases linearly with increasing radiation dose, and there is no level of radiation exposure considered completely without risk.

Deterministic vs Stochastic effects

Deterministic effects (or tissue reactions) of ionizing radiation are related directly to the absorbed radiation dose and the severity of the effect increases as the dose increases. 

Example: Cataracts

Mnemonic: DDD Deterministic severity Determined by Dose

Stochastic effects of ionizing radiation are chance events, with the probability of the effect increasing with dose, but the severity of the effect is independent of the dose received. Stochastic effects are assumed to have no threshold. 

Example: Cancer

Mnemonic:
Stochastic Severity No
Probability So

Stannous ions in equilibrium radionuclide angiocardiography

A small amount of stannous chloride (SnCl2) is added to a vial containing a radiopharmaceutical precursor, such as pertechnetate (TcO4^-).

The stannous ions act as a reducing agent, converting TcO4^- to a reduced form of technetium (Tc-99m).

The radiotracer, now in the form of Tc-99m, can be easily incorporated into red blood cells or other carriers.

Technetium gamma decay is an example of isomeric transition

Technetium-99m (Tc-99m) undergoes a type of nuclear decay known as an isomeric transition when it emits gamma radiation. Specifically, Tc-99m undergoes an isomeric transition to its more stable state, technetium-99 (Tc-99), through the emission of gamma rays.

The isomeric transition involves a change in the nuclear energy state of the atom without a change in its chemical properties. In the case of Tc-99m, the metastable state (m) refers to a higher-energy state with a relatively short half-life, and the isomeric transition involves the release of a gamma-ray photon as the nucleus transitions to a lower-energy state.

The gamma rays emitted during the isomeric transition of Tc-99m are of diagnostic interest in nuclear medicine. Tc-99m is widely used as a radiopharmaceutical in various medical imaging procedures, including single-photon emission computed tomography (SPECT). The emitted gamma rays are detected by gamma cameras to create images that provide valuable diagnostic information about the structure and function of organs and tissues in the body.

Photolectric effect and Compton scatter

In the Compton effect, a photon interacts with an outer shell electron, resulting in the ejection of the electron and a scattered photon with reduced energy.

Compton scatter is a significant contributor to image noise. It can result in scattered photons reaching the detector and degrading image contrast.

Compton scatter is more likely to occur with higher-energy photons, such as those around 140 keV.

The photoelectric effect is more pronounced at lower energies and is characterized by the complete absorption of a photon by an inner-shell electron, leading to the ejection of the electron.

The Photoelectric Effect is particularly important in medical imaging applications using low-energy X-rays, where it contributes to contrast in radiographic images. 

Mnemonic: Compton is with COmpletely More energy PhoTONs  (Compton scatter is more likely to occur with higher-energy photon)

photoeLEctric absorbs aLL Lower Energies 

Inaccurate camera settings, incorrect photopeak, flood field

Inaccurate camera settings, incorrect photopeak, flood field for nuclear boards

The pulse height analyzer (PHA) measures in-coming signals and enables signals of a specific energy range ("window") to be recorded while excluding all other signals.

If the window set slightly below the photopeak, the honey comb artifact with "hot" spots over each photomultiplier tube is characteristic.

BGO mnemonic for nuclear medicine boards

See YouTube video here https://youtu.be/JTpj76zUS0I?si=zNhY9zkG3_55XVU1 

Tracer uptake and coronary blood flow mnemonic for Nuclear Cardiology boards

 

Nuclear medicine practive question: Inverse square law

 A vial containing 32 millicuries is emitting radiation at a rate of 1 roentgen per hour at a distance of 1 meter. If a technologist stands at a distance of 2 meters from the vial, how much radiation (in roentgens) does the technologist receive during a 15-minute period?

Radiation safety in pregnancy

United States Nuclear Regulation Commission (USNRC) also recommends total fetus exposure during pregnancy to be less than 5.0 mSv (500 mrem). The fetus radiation dose below 50 mGy is considered safe and not cause any harm.

See YouTube video https://youtu.be/ajPn17iT0aE?si=2Uz1dZIwfpoIeRjM

Half life of Fluorine 18 is 110 minutes mnemonic

 

Half life of Rubidium-82 is 76 seconds mnemonic for nuclear medicine boards #nuclearmedicine

 

Nuclear medicine practice question: Half-Value Layer

You are conducting a radiographic imaging experiment using four different materials with distinct Half-Value Layers (HVLs). The materials and their respective HVLs are as follows:
Material A: HVL = 5 mm of aluminum
Material B: HVL = 3 mm of lead
Material C: HVL = 8 mm of copper
Material D: HVL = 6 mm of steel
You have sheets of these materials, each with a thickness of 10 mm. Your task is to determine which material, at a thickness of 10 mm, attenuates the most photons.
Which material is expected to exhibit the highest photon attenuation under these conditions?

A) Material A
B) Material B
C) Material C
D) Material D

1 mCi = 37 MBq mnemonic for nuclear boards

Nasal septal fracture Mnemonic

I have tried to make a mnemonic for nasal cartilage septal fracture by making some association with the name

Jarjaway fracture = make me think pike George is away. That he means he walked on some path and paths are generally horizontal. So fracture is horizontal. And for horizontal fractures we need blow from front 

Chevalier fracture = makes me think of shovel and you know when it is used it is struck on the ground almost inclined or vertical. So vertical fracture and for that fracture we need blow from below 

I hope these associations work for you

InShaAllah

Thank you❤

Mnemonic for Toxicity of loop diuretics | Mnemonic

 For toxicity of loop diuretics, mnemonic is as follows:

keep the word Hypo 

so now count down all hypos:

• hyponatremia
• hypokalemia'
• hypocalcemia
• hypomagnesemia
• hypovolemia

and from word (hypo) letters:

H..................

y (if you write it in small case letter on paper, its upper part resembles u) = uric acid (and removing the o from hypo makes hyp = hyperuricemia)

p (rhymes with b) = B1 deficiency (which actually worsens in heart failure)

and O = ototoxicity 

this is makes easier for me to remember the toxicities of loop diuretics easier than cramming them all or making a sentence or word unrelated to loop diuretics, so word hypo is quite relevant for loop diuretics so it can be a good anchor in your mind

I hope it works for you all 

InShaAllah

Thank you 💓

Types of radioactive decay mnemonic

Alpha decay

2 protons, 2 neutrons (Helium atom)

Mnemonic: AH

Beta decay

Electron, high energy is emitted

Mnemonic: BE

That's all! 

-IkaN 

Loop diuretics Mnemonic | Clinical Indications of Loop diuretics

 Mnemonic for clinical indications of loop diuretics is as follows

From the word loop diuretics, my mind first thinks about loop as wave like thing and diuretic to be water related

So mnemonic is also related to it like that

HEEHA........ (as if you are skating on sea waves)

H = heart failure

E = edema  (pulmonary)

E = edema (peripheral)

H = hypertension (in case of renal failure and you are trying to treat fluid overload)

A = onion overdose 

I hope it works for you all

InShaAllah

Thank you 💓

Mnemonic | Ramsay Hunt Syndrome

Here is a mnemonic for Ramsay hunt syndrome triad 

Taken from the name of the disease:

Ram Said to me, Hunt!

Ram said from his mouth, so associate this point with facial paralysis

He said to me to Hunt so I heard it from my ears and hunt is always with injuries, so external auditory canal vesicular lesions (which are painful)

I hope you understood this linker Mnemonic and would have good place in your mind Palace 👽

InShaAllah

Thank you❤👻👽

And that's it

Mnemonic | Triad of Melkersson Syndrome

For the triad of Melkersson syndrome, I tried to make a mnemonic from the name of the disease. 

Here it is 

Pronounce MelKerSon by dividing the whole word into 3 parts and note which part of your mouth plays part in it

Mel = you used your lips mainly 

Ker = you used your tongue to pronounce it

Son = you remembered your son and his face came infront of your sight

So 

Mel = swollen lips

Ker = fissured tongue 

Son = facial paralysis 

I hope it works for you all

InShaAllah!

Thank you❤👽👻