Exudates from six species of the genus Eucalyptus and one of the genus Corymbia (formerly Eucalyptus), from the family Myrtaceae, have been characterized by solid-state 13C and solution 1H NMR spectroscopy for the first time. Although these eucalypt kinos, as these exudates often are called, resemble resin (terpenoid) and gum (carbohydrate) exudates in physical appearance, their NMR spectra are dramatically different. In addition to lacking the characteristic terpene saturated resonances, they exhibit strong unsaturated resonances, which are weak for resins and absent for gums. We additionally report that exudates from genera of several other families of flowering plants (Amyris, Centrolobium, Guaiacum, Liquidambar, and Prosopis) also exhibit part or all of this kino spectroscopic signature.
We studied prospectively 62 women with cystoceles by video-urodynamics before and after operative repair. Of 29 women with grades 1 and 2 cystoceles 8 had residual urine, 14 had urge incontinence and 24 had symptoms of stress urinary incontinence. Of these women 23 had urodynamic evidence of stress incontinence, as did 3 of 5 without stress incontinence symptoms. Of 33 women with large cystoceles 22 had symptoms of stress urinary incontinence but 10 more had urodynamic evidence of stress urinary incontinence. Of these 33 women 18 had significant residual urine and 24 had urge incontinence. Operative repair resolved stress incontinence in 51 of 54 women, urge incontinence in 33 of 38 and residual urine in 24 of 26. Cystoceles recurred in 3 patients, and enteroceles developed in 3 and recurred in 2. These findings indicate that cystoceles may cause voiding dysfunction and lack of symptoms of stress incontinence is unreliable in patients with cystoceles. In addition, cystoceles are associated with other symptoms, most of which actually resolve after operative repair.
Proton nuclear magnetic resonance spectra have been recorded of exudates harvested from 12 species from the family Araucariaceae, 40 from the Cupressaceae, and one from the Podocarpaceae. These spectra were compared with the spectra previously recorded of 82 species from the Pinaceae. These four families together represent all major groups of extant, resin-bearing conifers. A common set of 10 COSY two-dimensional cross-peaks generally define samples from the Pinaceae, a different set of six peaks define the Araucariaceae, and yet a third set of 10 peaks define the Cupressaceae, with a few exceptions. It is important that proton spectra can distinguish the Araucariaceae and the Cupressaceae, since carbon-13 spectra do not. The one-dimensional peaks not only confirm these familial distinctions but also often characterize genus and species uniquely.
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