Can the pentitol-hexitol theory explain the clinical observations made with xylitol?

The natural dietary carbohydrate xylitol has been used as a source of energy in infusion therapy and found to act curatively in certain clinical situations. Xylitol has also been used as a sweetener in the diabetic diet and as a non- or anticariogenic agent. Xylitol is a sugar alcohol (polyhydric alcohol) of the pentitol type. The various advantageous clinical effects associated with enteral and parenteral administration of xylitol can be considered to result from the five-carbon (pentitol) nature of the molecule and from the molecule's special configuration even when compared with other pentitols. Such effects may be regarded as simple consequences of evolutionary expediency in a situation where human nutrition and man's significant energy-yielding metabolic pathways are associated with the six-carbon nature of D-glucose and the close derivatives and polymers of D-glucose and related sugars, and the physiologic involvement of the five-carbon xylitol in several ancillary pathways. Consequently, most clinical effects occasioned by xylitol cannot be expected to be caused by six-carbon hexitols such as D-mannitol and D-glucitol. A simple pentitol-hexitol theory seems to explain most of the clinical effects associated with the administration of xylitol. This theory is in congruence with the general evolutionary development in which the metabolism of C(6)-based carbohydrates is often inhibited by C(5)-based ones (as manifested in certain bacterial infections in man), or where the presence of the C(5)-based xylitol forwards therapeutically significant metabolic pathways (as observed in parenteral nutrition and treatment of certain enzyme deficiencies). The validity of the theory can be verified in controlled clinical trials. Copyright 2000 Harcourt Publishers Ltd.