Response analysis CER
Tue, Dec 8, 2026 · Week 16 · Principles of Biomedical Technology (Principles of Biomedical Science)
Today's goal: Students write a CER evaluating their triage and stabilization decisions against patient outcomes.
What a finished product looks like
This is a model of the work you should turn in today. Use it to check your own: match the structure and the level of detail, do not copy it. Your data and wording should be your own.
Worked CER on a parallel case (bystander CPR and AED response). This models the format and depth PLTW expects. It is NOT about today's triage question, so use it only to see how a strong response-analysis CER is built.\n\nClaim: Our bystander response mostly optimized the outcome, but we lost about a minute of chest compressions while searching for the AED, and that pause was the weakest part of our response.\n\nEvidence (from our action log): We confirmed the collapsed adult was unresponsive and not breathing normally at 0:20 and started compressions at 0:40. The log shows compressions stopped at 2:10 when one responder left to find the AED, and they did not restart until the AED arrived and analyzed the rhythm at 3:15. That is a gap of roughly 65 seconds with no compressions.\n\nReasoning: The chain of survival depends on high-quality, minimally interrupted compressions, because every pause lets blood flow to the brain and heart fall back toward zero. The guideline is to send a second person for the AED while the first keeps compressing, so circulation never stops. By having the only compressor leave to get the AED, we broke that rule and created exactly the kind of long pause the protocol is designed to prevent.\n\nRecommended protocol change: Assign AED retrieval to a named second bystander before compressions begin, so the person doing compressions never has to stop to go get the device. This is specific and tied to the exact decision that cost us time.\n\nAssumptions and limitations: This was a manikin drill with a training AED, so the pause had no real physiological cost and the manikin could not actually deteriorate. In a real cardiac arrest the same 65-second gap could meaningfully lower the chance of survival, which is why the change matters even though the drill still ended in a clean save.
Also due today: Submit your CER in Schoology under the Thursday Response Analysis CER assignment before end of period.
WebXam problem for today's skill
One exam-style question that uses exactly what you practiced today. Try it before you reveal the answer, then read why each choice is right or wrong.
Tap an answer to see the full explanation. Nothing is recorded or graded.

