Greetings!
I recently stumbled on this forum while researching information regarding Tetrapterys spp. I joined the group today to share with you what I have learned recently because it could prevent someone from haphazardly drinking this and perhaps other less studied ‘caapi’ vines before we have 1) confirmed the species’ identity and 2) characterized their chemistry.
I don’t have time to write a full review on this subject, but I will summarize what I have learned which has made me think twice before consuming unknown plants.
To those who may not be aware, there are published reports of toxicity from animals grazing on Tetrapterys spp., Mimosa spp., and Phalaras spp. While some have pointed the finger at tryptamines, I have seen little evidence implicating DMT specifically, though certainly gramine is known to be toxic. Other toxic candidates to be on the lookout for are the monoterpenoid indole alkaloids, aspidofractinine, 15-demethoxypyrifoline and N-formylaspidofractine which has been identified in plants that cause similar toxic symptoms (Araújo et al., 2007, Phytochem Rev (2007) 6:183–188; DOI 10.1007/s11101-006-9044-y).
Below are some excerpts from papers that may be of interest in terms of possible toxicity.
Peace
Abortion in cattle due to Tetrapterys acutifolia poisoning
Pesq. Bras. vol.31 no.9 Sept Rio de Janeiro. 2011
Aborto em bovinos devido à intoxicação por Tetrapterys acutifolia (Malpighiaceae)
Saul A. Caldas I * , James C. Peixoto I ; Vivian A. Nogueira II ; Ticiana Birth France II , Charles H. Tokarnia III , Paul V. Peixoto III
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ABSTRACT
This study aimed to demonstrate experimentally that Tetrapterys acutifolia Cav. (Fam. Malpighiaceae) is capable of causing abortion in cattle and to characterize the clinicopathologic changes in cows and fetuses. These plants are responsible for a significant number of deaths in cattle over one year of age, especially in the states of Rio de Janeiro and Sao Paulo, but until now had not been experimentally proven its abortifacient effect in cattle. The experiments were conducted in the municipality of Barra do Pirai, RJ. Four cull cows receiving fresh shoots and young leaves of T. acutifolia , collected from neighboring properties, at doses of 2.5 g / kg / day, 5.0 g / kg / day (two cows) and 10g/kg/dia, until after the abortion. The clinical findings in cows characterized by cardiac arrhythmia, muscle tremors, anorexia, ascites, jugular engorged, swollen breasts and barb and abortion (23-76 days after the initial intake of the plant), all cows aborted. Only one of four cows (which received 10g/kg/dia) died 36 days after abortion, with symptoms of heart failure. The necropsy of the fetuses / stillbirths revealed hydrothorax, hydropericardium, hydroperitoneum and hepatic congestion, by cutting the myocardium, there were pale areas. Histopathological findings were interstitial edema with incipient fibrosis. In cows that received the highest dose and died, and another intoxicated course, the autopsy findings were similar to those observed in the fetuses, except for the dilatation of the vessels of the heart base and more pronounced pallor of the myocardium. We also observed swelling in the cervical and subcutaneous sternal and engorged jugular veins. The histopathological findings were necrosis and interstitial edema with marked fibrosis in the myocardium, spongiosis of the cerebral white matter and in the liver, congestion and slight fibrosis. Additionally, there was the cow intoxicated spontaneously 17 days after abortion, irregular heartbeat, swollen jugular vein, edema, chest and barb, anorexia with death 43 days after the abortion. This study demonstrates that Tetrapterys acutifolia is capable of inducing abortion and, depending on the dose also cause the death of cows abort.
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Dose and clinical outcome to abortion
All cows receiving the plant (2.5-10g / kg / day) aborted and one died 36 days after aborted (10g/kg/dia). The period of the demonstration of the first symptoms to abortion ranged from 10 to 47 days.
Discussion
“…The poisoning Tetrapterys spp. in cattle and sheep can be compared in many respects to the toxicity caused by various species of rubiáceas ( Pachystigma pygmaeum, P. thamnus, P. latifolium, Pavetta harborii, P. schumannian and Fadogia homblei , also known as F. monticola) that occur in South Africa (Hunter et al. 1972 Kellerman et al. 1988 Fourie et al. 1989) and cause the so called "gousiekte" disease in cattle poisoning plants containing pavetamina (Schultz et al. 2004). In fact, more careful observation shows that the serious nature of cardiac lesions found in regressive-proliferative "gousiekte" (= rapid disease) keep resemblance to those described in poisoning Tetrapterys spp. Moreover, such to produce cardiac damage in animals, these plants also have to be ingested in large quantities for extended periods. However, the unusual influence of exercise as well as the clinical Subacute to chronic toxicity in Tetrapterys spp. differ from the frame determined by African plant, in general, lead to death so hyperacute (acute heart failure and sudden death), especially when the animals are moved and, less frequently, chronic congestive heart failure. In addition, African plants apparently do not cause abortion, or determining the central nervous system lesions ( spongiosus status ) as described in cattle and sheep poisoning Tetrapterys spp. and A. glazioviana (Tokarnia et al. in 1989, Barros 2001 & Gava, Gava et al. in 2001, Stigger et al. 2001) . Another similarity present in clinical cases of poisoning by plants that cause "gousiekte" and T. multiglandulosa has recently been described by Chapman et al. (2006), who observed clinical signs and cardiac lesions in cattle removed two months ago where there was a pasture plant. Experimental
studies in sheep poisoning T. multiglandulosa also suggest that there is a latency period between ingestion of the plant and the development of cardiac lesions (Riet-Correa et al. 2005). This latency period (4-8 weeks after ingestion of the plant) is a characteristic of intoxication by African plant (Hunter et al. 1972 Kellerman et al. 1988 Fourie et al. 1989).
A review of poisonous plants that cause reproductive failure and malformations in the ruminants of Brazil
J. Appl. Toxicol. 2012; 32: 245–254
Franklin Riet-Correa,* Rosane M. T. Medeiros and Ana Lucia Schild
ABSTRACT: The objective of this review is to provide a report on toxic plants causing reproductive problems in ruminants in Brazil. Aspidosperma pyrifolium causes abortion or stillbirth in goats, as well as most likely in sheep and cattle, in the semiarid regions of Northeastern Brazil. Intoxications by Ateleia glazioveana, Tetrapterys acutifolia and T. multiglandulosa result in abortion and neonatal mortality in cattle and sheep, and the same signs have been experimentally observed in goats. These three plants can also cause cardiac fibrosis and a nervous disease with spongiosis of the central nervous system. Other plants known to cause abortion include Enterolobium contortisiliquum, E. gummiferum, Stryphnodendron coriaceum, S. obovatum and S. fissuratum. These plants can also cause digestive signs and photosensitization. Abortions have been reported in animals intoxicated by nitrates and nitrites as well. Infertility, abortions and the birth of weak offspring have been reported in animals intoxicated by plants containing swainsonine, including Ipomoea spp., Turbina cordata and Sida carpinifolia. Trifolium subterraneum causes estrogenism in cattle. Mimosa tenuiflora and, most likely, M. ophthalmocentra cause malformations and embryonic mortality in goats, sheep and cattle in the semiarid regions of Northeastern Brazil.
Tetrapterys acutifolia and T. multiglandulosa
“…Tetrapterys acutifolia and T. multiglandulosa are considered shrubs or vines. T. acutifolia is found in the states of Minas Gerais and Espírito Santo, and T. multiglandulosa is located in the states of Rio de Janeiro, São Paulo and Mato Grosso do Sul. The frequency of abortions resulting from these plants is variable. In an outbreak of poisoning by T. multiglandulosa, 230 out of 290 cows (79%) either aborted or delivered weak calves, and seven cows died from cardiac insufficiency (Carvalho et al., 2006).
Recently, another species of Tetrapterys, not yet identified, located in the state of Rio de Janeiro was determined to cause abortions (Peixoto et al., 2011).
Mimosa tenuiflora
Mimosa tenuiflora and, most likely, M. ophthalmocentra (Fabaceae-mimosoideae) cause malformations and embryonic death in sheep, goats and cattle.
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The primary toxin in M. tenuiflora remains unknown, but alkaloids that are derived from tryptamine have been isolated from the leaves and seeds of this plant (Gardner et al., 2011). The occurrence of animal malformations in areas of M. tenuiflora or M. ophthalmocentra growth is suggestive of poisoning. Similar congenital defects can be produced by other factors, but the high frequency of defects observed in the semiarid rangelands of northeastern Brazil along with the experimental data on reproduction following M. tenuiflora administration suggest that a large majority of the malformations are caused by this plant.
Ref
Gardner DR, Riet-Correa F, Panter KE. 2011. Alkaloid profiles of Mimosa tenuiflora and associated methods of analysis. In Poisoning By Plants, Mycotoxins, and Related Toxins, Riet-Correa F, Pfister J, Schild AL, Wierenga T (eds). CAB International: London; 600–605.
