Which of the following reflects a key health initiative promoted by the Colombo Plan?

Strengthening human resources for healthcare

Promoting cobalt therapy initiatives for cancer treatment

Establishing treatment facilities for various diseases

Support for diagnostic imaging technology in healthcare

Late effects of radiation therapy include:

Mucositis, Enteritis, Pneumonitis, Somatic mutations

Mucositis, Enteritis, Nausea and vomiting, Pneumonitis

Enteritis, Nausea and vomiting, Pneumonitis, Somatic mutations

Mucositis, Nausea and vomiting, Pneumonitis, Somatic mutations

Which of the following statements regarding thermal injury is correct?

Lund-Browder chart is the most accurate method for estimating TBSA in children

In child below 5 years, genitals form 1% of area

Rule of nines is more accurate than Lund-Browder chart in children

Burn index is the standard clinical method for assessing burn severity

A 65-year-old presents with chronic knee pain, varus deformity, and medial joint space narrowing. BMI is 32. Best treatment option?

Unicompartmental Knee Replacement

Total Body Irradiation for INI-CET: High-Yield Radiology Lessons

Total Body Irradiation - Body Under Siege

Definition: Radiation therapy delivered uniformly to the entire body.
Primary Goals:
- Eradicate malignant cells (leukemia, lymphoma).
- Immunosuppression for HSCT (prevent graft rejection).
- Bone marrow ablation.
Key Indications:
- HSCT conditioning (most common).
- Palliation (widespread low-grade lymphoma, rare).
Dose: Typically 10-15 Gy fractionated (e.g., 1.5-2 Gy/fraction). Single dose ~7.5 Gy (higher toxicity).
- Lung shielding vital; mean lung dose often <8-10 Gy.

⭐ TBI is a cornerstone of myeloablative conditioning for allogeneic HSCT, especially in acute leukemias.

Total Body Irradiation - Zap Strategy

Total Body Irradiation: Bilateral Fields Setup

Goal: Eradicate malignant cells (leukemia, lymphoma), immunosuppression for BMT/SCT.
Techniques:
- AP/PA (Anterior-Posterior/Posterior-Anterior): Patient standing or lying, large SSD.
- Bilateral: Two opposing large fields, patient lying on side.
- Rotational or translational methods for dose uniformity.
Beam: High energy photons (e.g., 6-10 MV LINACs) to ensure penetration.
Dose Rate:
- Low Dose Rate (LDR): 5-15 cGy/min (classic).
- High Dose Rate (HDR): >15-20 cGy/min (more common now with fractionation).
Fractionation:
- Single dose: e.g., 10 Gy (historically, higher toxicity).
- Fractionated: e.g., 12-15 Gy in 6-8 fractions over 3-4 days (improves tolerance, reduces late effects).
Organ Shielding: Lungs (critical), kidneys, lenses (sometimes).

⭐ Lung dose is a major limiting factor; typically kept < 8-10 Gy with shielding to reduce risk of pneumonitis.
Immobilization: Essential for reproducibility.
In vivo dosimetry: TLDs or diodes on skin to verify dose delivery. 📌 Total Body Irradiation = Treat Big Intervals (fractionation).

Total Body Irradiation - Target Lock

Aim: Uniform dose (typically ±5% to ±10%) across entire body for marrow ablation/immunosuppression pre-HSCT.
Techniques: AP/PA or bilateral fields, extended SSD; compensators/bolus for homogeneity.
Dose: 10-14 Gy total; single or fractionated (e.g., 1.5-2 Gy/fx, BID).
Lung Shielding: Critical to prevent pneumonitis.
- Custom blocks (Cerrobend) or MLCs.
- Mean Lung Dose (MLD) target: < 8-10 Gy.
Other OARs: Kidneys (limit < 12-14 Gy), Lens (limit < 5 Gy if possible).
Verification: In vivo dosimetry (TLDs/diodes) at key anatomical points.

TBI lung shielding and dose distribution

⭐ Lungs are the primary dose-limiting organs in TBI; mean lung dose is crucial, often kept < 8 Gy to minimize radiation pneumonitis risk.

Total Body Irradiation - Radiation's Toll

Acute Toxicities (Days to Weeks):
- Gastrointestinal Syndrome: Nausea, vomiting, diarrhea, mucositis, parotitis.
- Hematopoietic Syndrome: Myelosuppression leading to pancytopenia; nadir at ~2-3 weeks. Risk of infection, bleeding.
- Pulmonary: Acute radiation pneumonitis (RP); typically 1-3 months post-TBI. Can be dose-limiting.
- Skin: Erythema, desquamation.
- Constitutional: Fever, fatigue.
Late Toxicities (Months to Years):
- Ocular: Cataracts (most common non-fatal late effect, dose-dependent).
- Endocrine: Hypothyroidism, hypogonadism (infertility).
- Pulmonary: Chronic fibrosis, restrictive disease.
- Renal: Radiation nephropathy (proteinuria, hypertension, renal failure).
- Skeletal: Growth retardation (children), osteonecrosis.
- Carcinogenesis: Increased risk of secondary malignancies (e.g., AML, MDS, solid tumors).
- Hepatic: Veno-occlusive disease (VOD), especially with prior chemotherapy.
- Neurologic: Cognitive dysfunction (rare).

⭐ Interstitial pneumonitis is a major dose-limiting acute toxicity, often occurring 1-3 months post-TBI, and can be fatal if severe.

High‑Yield Points - ⚡ Biggest Takeaways

TBI is crucial for pre-HSCT conditioning, mainly in leukemias and lymphomas.

Aims: Malignant cell kill, immunosuppression for graft acceptance, and marrow space creation.

Dose: 10-15 Gy in fractions; low dose rate (e.g., 5-15 cGy/min) is vital to reduce toxicity.

Interstitial pneumonitis is the primary dose-limiting toxicity; lung shielding is often employed.

Other major risks: Veno-occlusive disease (VOD), cataracts, endocrine dysfunction, and secondary malignancies.

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