Intracavitary Brachy Dose Specifications + HDR Intracavitary Brachy

what are two fractionation schemes for HDR cylinder treatments with EBRT and what is one without external beam

- 3 x 600 to the surface of the cylinder - 1 x 700 to 5 mm from the surface of the cylinder - 4 x 880 to the surface of the cylinder (no external beam)

ABS recommendation for dose fractionation options to point A

- 4 x 7 Gy - 5 x 6 Gy - 6 x 5 Gy - 5 x 5.5 Gy

where are dose optimization points placed with cylinder applicators

- along the surface and dome of the cylinder - or at some specified depth (usually 0.5 cm)

minimum information required to be recorded with ICRU 38 treatment with tandem and ovoids

- applicator types - source type - loadings - orthogonal radiographs of the application - height, width, and thickness of pear-shaped reference volume

ICRU 38

- bladder & rectal points - nodal points - pelvic sidewall points

list all the "systems"

- historical - Manchester - ICRU 38 - ABS

how does the ICRU clarify dose specification location

- isodose surface of 60 Gy just surrounds the target volume (based on Paris experience) - point A is too uncertain, they don't recommend using it - defines height, width, and thickness of the pear-shaped reference volume

what ICRU 38 points are to monitor pelvic dose

- lymphatic trapezoid - pelvic wall points

pelvic wall points correspond to what structures

- parametrium - obturator nodes

dose per insertion constraints

- point A?: 17-20 Gy - Bladder <15 Gy - Rectum <15 Gy

historical "systems"

- stockholm - paris

according to RTOG for ICRU 38 methods of dose determination of the rectum and bladder, each of these structures should be limited to _____ of the prescribed dose

70%

according to ABS consensus guidelines, HDR brachy + EBRT the course of the treatment should be complete in how many weeks

8 or less

tandem and ring is HDR or LDR

HDR

what is the down side of HDR heyman capsules/applicators compared to LDR

LDR is less rigid - HDR is rigid so the source doesn't get stuck

stockholm system and paris system used what radioisotope

Ra226

ICRU dose is based on what

TRAK total reference air kerma - uGym^2h^-1

ABS guidelines for volumetric imaging for DVH values for HR-CTV and Organs at risk are: a. 90% & 2 cc b. 95% & 0.2 cc c. 97% & 2 cc d. 97% & 0.2 cc

a. 90% & 2 cc

manchester system

aka paterson-parker system Points A & B

The ABS guidelines recommend that the GEC-ESTRO guidelines for contouring be followed. For CT, the HR-CTV should include the folloiwng: A. Cervix B. Parametrial Extension C. Pelvic Sidewall Disease D. Nodal Disease a. A, B, & C b. A & B c. A & C d. All of the above

b. A& B

ICRU 38 recommends a system of dose specification that relates the dose distibution to a: a. point b. target volume c. both

b. target volume

true or false: you need heterogeneity corrections for brachytherapy planning

false

true or false: he exclusive use of DVH based parameters to select a source is recommended

false: it is not recommended. You must also consider spatial dose distribution

true or false: when using vaginal dome HDR, you cannot put cylinders behind the dome

false: you can put cylinders behind the dome

name of HDR tandem and ovoid applicator

fletcher-williamson

what is HR-CTV

high risk CTV - contoured 3 cm superior above the ovoids along the tandem

what makes MR compatible applicators compatible with MR

lack of shields

the pear-shaped isodose distribution helps limit dose to what, and increase dose to what

limits dose to bladder and rectum increase dose to cervical and paracervical tissues

what is the most extensively used dose specification system

manchester - aka paterson-parker

why is the tip often loaded with longer dwell times

ovoids contribute dose by the cervix

what dose the lymphatic trapezoid correspond to

para-aortic nodes, common iliac nodes, and external iliac nodes

where is point A and where is point B in the original manchester system and revised

point A: 2 cm superior to ovoids: 2 cm lateral of the center of the uterine canal point B: 3 cm lateral to point A (obturator nodes) Point A: 2 cm superior to ovoids: 2 cm sup to the lower end of the tandem along the tandem and 2 cm lateral to the central canal Point B: 2 cm sup to the external cervical os and 5 cm lateral along the body plane

what is the alternative to mini ovoids (and is also unshielded)

ring applicators - same pear-shape dose distribution as tandem and ovoids

what is the consequence of HDR heyman capusules being more rigid

the top of the uterus will be the low dose region because of anisotropy of the sources

what length of the tandem is activated

tip to 1/4 to 1/2 cm above the ovoids

why is it so important to check the tandem placement before planning

to make sure the tandem is not perforating the uterus - and that it is centered within the uterus - and that ovoids are at vaginal cuff - and uterus is packed away from OAR

true or false: the larger the cylinder, the lower the vaginal surface dose

true

which stepping source has the greatest weight in the tandem

usually in the first 2 cm of the tandem