Traditional medicine regards tumors as abnormal proliferations of harmful cells that threaten bodily health. However, this study proposes a revolutionary perspective: tumors are not pathological lesions but deliberate, biomechanically optimized protective barriers constructed by the body through precise fluid dynamics calculations. When heavy metals, carcinogenic factors, and other intractable toxins cannot be metabolized or eliminated, the body activates a "local isolation strategy" to prevent systemic damage. By comparing the structural characteristics, stress distribution, and functional logic of tumors with bone marrow tissue, this paper clarifies the essential differences between tumor-mediated toxin isolation and bone marrow-related systemic crises, and further reveals the body's intelligent self-protection mechanism. The study uses analogies such as the "nuclear waste stone coffins" of Fukushima and Chernobyl to illustrate the rationality of tumor formation, and provides a new theoretical framework for reinterpreting tumors, systemic lupus erythematosus (SLE), and related disease mechanisms.
FOO SENG ANG (Sun,) studied this question.