Fescue lameness, which resembles ergot poisoning, is believed to be caused by ergot alkaloids, especially ergovaline, produced by the endophyte fungus Neotyphodium coenophialum in tall fescue grass (Festuca arundinacea). It begins with lameness in one or both hindfeet and may progress to necrosis of the distal part of the affected limb(s). The tail and ears also may be affected independently of the lameness. In addition to gangrene of these extremities, animals may show loss of body mass, an arched back, and a rough coat. Outbreaks have been confirmed in cattle and similar lesions have been reported in sheep.
Tall fescue is a cool-season perennial grass adapted to a wide range of soil and climatic conditions; it is used in Australia and New Zealand for stabilizing the banks of watercourses. It is the predominant pasture grass in the transition zone in the eastern and central USA. Fescue lameness has been reported in Kentucky, Tennessee, Florida, California, Colorado, and Missouri, as well as in New Zealand, Australia, and Italy.
The causative toxic substance, ergovaline, has actions similar to those produced by sclerotia of Claviceps purpurea. However, ergot poisoning (see Mycotoxicoses: Ergotism) is not the cause of fescue lameness. Ergotism is most prevalent in late summer when the seed heads of grass mature. Fescue lameness is most common in late fall and winter and has been reproduced in cattle by feeding dried fescue free of seed heads and ergot. However, occasionally ergotized fescue seed produced in early summer may inadvertently be baled and result in ergot toxicosis instead of or in addition to fescue toxicosis.
Two fungi from toxic pastures have been implicated in fescue lameness. The endophyte fungus Neotyphodium (Acremonium) coenophialum can synthesize ergot alkaloids in culture. The ergot alkaloid ergovaline has been detected in toxic fescue and constitutes ~90% of the ergopeptide alkaloids produced. Ergovaline content of infected tall fescue often ranges from 100–500 ppb, and >200 ppb is considered a toxic concentration. Susceptible species from most to least sensitive are equine, bovine, and ovine. Endophyte-infected fescue that does not produce ergovaline has not caused fescue toxicosis. More than 90% of ergovaline metabolites in cattle are found in urine. Removal of animals from infected fescue pasture reduces urinary ergovaline below detectable concentrations within 48 hr.
Ergovaline is an agonist for dopamine D2 receptors, which initiate several physiologic abnormalities. Inhibition of prolactin secretion results in agalactia in horses and swine and reduced lactation in cattle. The dopaminergic effect also causes imbalances of progesterone and estrogen, associated with early parturition for cattle and prolonged gestation with oversized fetuses in mares. Finally, inadequate prolactin disturbs the hypothalamic thermoregulatory center leading to temperature intolerance when environmental temperature exceeds 31°C (88°F).
Some reports indicate an increased incidence of fescue lameness as plants age and after severe droughts. Strains of tall fescue vary in their toxicity (eg, Kentucky-31 is more toxic than Fawn) due to variation in infection level with the fungus and to high variability within a strain. In some Kentucky-31 fescues, infection levels cannot be detected. High nitrogen applications appear to enhance the toxicity. Susceptibility of cattle is subject to individual variation.
Low environmental temperature is thought to exacerbate the lesions of fescue lameness; however, high temperatures increase the severity of a toxic problem known as epidemic hyperthermia or “summer syndrome,” in which a high proportion of a herd of cattle exhibits hypersalivation and hyperthermia. The toxin appears to be a vasoconstrictor acting as an α2-adrenergic agonist on blood vessels; this promotes hyperthermia in hot weather and results in cold extremities during cold weather. Another cause of this is poisoning with C purpurea (ergot alkaloids).
Erythema and swelling of the coronary region occur, and cattle are alert but lose weight and may be seen “paddling” or weight-shifting. The back is slightly arched, and knuckling of a hind pastern may be an initial sign. There is progressive lameness, anorexia, depression, and later, dry gangrene of the distal limbs (hindlimbs first). Signs usually develop within 10–21 days after turnout into a fescue-contaminated pasture in fall. A period of frost tends to increase the incidence.
For control, all infected forage should be removed.
Summer Fescue Toxicosis
This warm season condition is characterized by reduced feed intake and weight gains or milk production. The toxin(s) affects cattle, sheep, and horses during the summer when they are grazing or being fed tall fescue forage or seed contaminated with the endophytic fungus Neotyphodium (Acremonium) coenophialum. The severity of the condition varies from field to field and year to year.
Signs other than reduced performance, which may appear within 1–2 wk after fescue feeding is started, include fever, tachypnea, rough coat, lower serum prolactin levels, and excessive salivation. The animals seek wet spots or shade. Lowered reproductive performance also has been reported. Agalactia has been reported for both horses and cattle. Thickened placentas, delayed parturition, birth of weak foals, and agalactia have been reported in horses. The severity increases when environmental temperatures are >75–80°F (24–27°C) and if high nitrogen fertilizer has been applied to the grass.
Therapy for the equine reproductive syndrome has responded to treatment with domperidone administered at 1.1 mg/kg, PO, bid for 10–14 days. For control, toxic tall fescue pastures must either be destroyed and reseeded with seed that does not contain endophytic fungus, or infected fields must be managed to avoid the high risk factor. Transfer of the fungus from plant to plant is primarily, if not solely, through infected seed. Not using pastures during hot weather, diluting tall fescue pastures with interseeded legumes, clipping pastures to reduce seed formation, or offering other feedstuffs helps reduce severity. Removing pregnant horses or cattle 1 mo before parturition will usually prevent parturition- and lactation-related problems. Specific feed additives may provide some protection against contaminated hay. Yeast cell derivatives known as glucomannans are reported to improve performance by preventing toxin absorption in cattle; a seaweed product is reported to lessen the immunosuppressive effects of toxic tall fescue. (Also see Abdominal Fat Necrosis.)
Last full review/revision March 2012 by Gary D. Osweiler, DVM, MS, PhD, DABVT