Title of article
Recovery of normal hemopoiesis in disseminated cancer therapy – a model
Author/Authors
Afenya، نويسنده , , Evans K. and Bentil، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2001
Pages
18
From page
15
To page
32
Abstract
The strategy of normal cell regeneration with recombinant hematopoietic growth factors during cancer chemotherapy is investigated by superimposing a treatment protocol on a simple model that describes an expanding malignant cell population that is coexisting with and inhibiting the population of normal cells. The model predictions suggest that the strategy of normal cell stimulation, possibly with growth factors, and possibly carried out within an intensive treatment framework may be a worthwhile chemotherapeutic option. Under this protocol, the model also predicts a minimum time interval for active treatment, a time to discontinue treatment, and a rest period during treatment in order to guarantee patient safety and recovery. Consequently, by relating and comparing model predictions to patient data, model simulations forecast that treatment could be shortened by 1–2 weeks if organized over or in the neighborhood of a predicted optimal time interval. Following this, it is conjectured that such an approach engendered by the model could produce outcomes that may have an edge over outcomes arising from therapeutic strategies that are executed over time frames that are relatively longer or significantly shorter than the predicted optimal time.
Keywords
hematopoiesis , chemotherapy , leukemia , Growth factors
Journal title
Mathematical Biosciences
Serial Year
2001
Journal title
Mathematical Biosciences
Record number
1588585
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