The significant effect that scheduling has upon the severity and types of drug toxicity has been known for many years. Evidence is available demonstrating that the schedule chosen will substantially effect the relative distribution of drug to various target organs. It has been shown that a likely cause for this with doxorubicin is that the efficiency of the various enzyme complexes responsible for disposing of the drug can be affected by scheduling. We believe a similar process can explain the marked effect that scheduling has on the pattern of 5-fluorouracil toxicity and present both clinical and computer data to illustrate this.
Up to the present time most initial anti-cancer chemotherapeutic regimes have been empirically designed, with several different types of schedule being compared. It is not unusual for a different pattern of organ toxicities to change as the structure of the protocol changes. It is the premise of this paper that these differences arise, at least in part, because the relative efficiency of enzymatic processes related to the intake and disposition of the drug by the tumor and various normal organs systems are dependent upon the schedule used. If the pharmacologic parameters of the tumor and various sensitive normal tissues are known, a computer program can help in formulating an optimum schedule. This paper, using 5-fluorouracil as an example, attempts to illustrate this.
The protocols used as the basis for the bolus schedule were that of Curreri et al. [
That used as basis for the low dose continuous infusion schedule was described by Lemon et al. [
The clinical results of the bolus groups can be summarized as follows.
Hematologic Toxicity grade 3, Stomatitis grade 3, Diarrhea, grade 4 Cardiac grade 0. Initial Mortality 30% Adjusted dose Mortality 1.2%.
Hematologic Toxicity grade 3, Stomatitis grade 3.5, Diarrhea, grade 0.5. Cardiac grade 1, Mortality 0.5%. Total Dose required for equivalent hematologic toxicity = Average Bolus Dose × 1.55.
The basis of the computer program is described in reference [
Vmax in | Km in | Vmax out | Km out | |
---|---|---|---|---|
WBC | 6 | 2 | 2 | 2.5 |
GUT | 8 | 3 | 1 | 1 |
ORAL | 5 | 3.5 | 3 | 2 |
MUCOSA | ||||
HEART | 4 | 3 | 4 | 1.5 |
BY BOLUS | BY 21 DAY | By 6 DAY | |
---|---|---|---|
Total Dose required | Infusion | Infusion | |
So that retained dose in | |||
Hematopoietic Tissue = | |||
100 U | 143 U | 250 U | 183 U |
Retained BY Hematopoietic | 100 U | 100 U | 100 U |
Tissue {DLT} | |||
Retained by GUT | 236 U | 82 U | 106 U |
When 143 total | When 250 total | When 183 total | |
Units given | Units given | Units given | |
Retained by ORAL | 104 U | 132 U | 125 U |
MUCOSA | When 143 total | When 250 total | When 183 total |
Units given | Units given | Units given | |
Retained By HEART | 79 U | 139 U | 94 U |
When 143 Total | When 250 total | When 183 total | |
Units Given | Units given | Units given |
Representative values of Vmax’s and Km’s were obtained from references [
These findings of drug retention for each organ system parallel all the clinical findings concerning drug toxicity described in the methods section as well as the general medical literature [
The administration of almost all anti-cancer chemotherapeutic agents commonly affects one or more potentially fatal, dose limiting organ systems, with the hematopoietic component being by far the most common. Fortunately this is almost always rapidly and essentially completely reversible, as is toxicity to the oral mucosa and mucosa of the intestine. Other forms of toxicity such as that to the heart, kidney, or nervous system may be partially or totally irreversible [
In some cases, such as with doxorubicin, the total dose required to in hematological toxicity is relatively independent of schedule [
5-fluorouracil is a pyrimidine derivative whose primary mode of action is believed to be inhibition of thymidylate synthetase thereby preventing DNA synthesis. However, its effect on cell metabolism is known to be complex, interfering with RNA function and protein synthesis are also believed to be factors in its anti-tumor activity [
Surveying the many studies involving 5-Fluorouracil reveal the following. With almost all the original protocols and many that follow, the drug was given by bolus, usually over a period of 15 minutes or less, daily for 3 to 4 days, commonly followed by weekly bolus injections. In the early trials drug induced mortality was quite high, primarily due to a gram negative septicemia secondary to overwhelming diarrhea and drug induced necrosis of bowel mucosa. In essentially all of the protocols where the 5-fluorouracil was given by bolus, WBC suppression, stomatitis and diarrhea were major factors [
The computer program used predicted that, assuming the various VMax and Km values entered were representative of true values, the amount of the drug required to produce a specific degree of hematological toxicity was significantly affected by the type of schedule, primarily because both efficiency of uptake and disposition of the drug are dependent upon his schedule. The computer also predicted a marked decrease in the retention of drug by the gut when the drug is given by low dose continuous infusion, thus explaining the clinical finding of the marked decrease in diarrhea and sepsis found when the drug is given by slow infusion. It also predicts an increase in the amount of drug accumulated by the heart and mucosa of the mouth and upper airway. Therefore, variations in enzymatic functions concerning drug uptake and disposal of various target organs can explain the clinical findings concerning the effect of schedule modification on selective drug toxicity.
The relationship of the pharmacologic parameters of both tumor and normal tissues and scheduling has rarely been discussed, even though the effect of a change of schedule upon differential organ toxicity can be major and associated with a substantial shift in drug away from a critical target tissue such as the heart [
An important but unknown factor in this approach is that the effect of schedule change upon tumor uptake has not been addressed. One reason for this is that tumor response rate in those tumors that are sensitive to 5-fluo- rouracil appear to be relatively independent of choice of schedule [
The fact that such major changes in the pattern of toxicity occurs when schedule is altered suggest that further schedule modification may yield a pattern of toxicity that is more acceptable as far as non hematological toxicity is concerned. This is illustrated in
It is not our contention that the pharmacologic parameters chosen are the real factors; It is only that this example illustrates that specific parameters of complexes responsible for uptake into both the neoplasm and specific normal tissues that limit the amount of drug a patient may receive may differ enough to markedly influence the pattern of toxicity caused by any specific agent, thus altering the LCT. This may occur even though the enzymes concerned are identical; only their specific environment, i.e. pH, electrolyte composition, etc varies, thus changing the efficiency of the enzyme complexes involved in both 5-fluorouracil and doxorubicin metabolism [
It also illustrates the principle that theoretically, provided that the data is available, a computer program may optimize the pattern of non hematological drug toxicity other than a hypothetical effect of drug upon regional blood flow [
A hypothesis has been put forward to explain the marked effect that modification of scheduling has upon the differential organ toxicities of many anti-cancer agents. The hypothesis states that local factors and the concentration of drug influence the relative activity of the enzymatic processes responsible for drug influx and disposition and the marked difference in drug concentration resulting from a change from short term bolus therapy to low dose continuous infusion can have a substantial effect upon the relative activities of these enzymatic processes in the target organs primarily due to the relative inefficiency of enzymatic activity at high tissue drug levels.
Arthur J.Weiss, (2015) A Hypothesis Concerning the Effect of Schedule on the Pattern of 5-Fluorouracil Toxicity. Journal of Cancer Therapy,06,251-256. doi: 10.4236/jct.2015.63028