(1) An underweight male newborn revealed a complex pattern of abnormal findings including severe neurologic dysfunction, a catlike cry, defective ossification of the calvarian bones, hypertelorism, downward slanting palpebral fissures, epicanthal folds, a short and flat nose with a flattened bridge, broad thumbs, clenched fingers 3--5 on the right hand, simian creases, a congenital heart defect, internal hydrocephalus, and bilateral hydronephrosis.
(2) Clinical symptoms were catlike cry in early infancy, severe mental and motor retardation, failure to thrive, hypertelorism, antimongoloid slant of the eyes, ptosis of the eyelids, epicanthus, micrognathia, dermatoglyphics abnormalities, and partial syndactyly between 2nd and 3rd toes.
(3) The basic medical disorder includes dysmorphic facies, mental retardation, and a striking catlike cry in infancy.
(4) Clinically, this infant had a shrill catlike cry and facies of the cri du chat syndrome.
(5) I would try to steer clear of him, but, catlike, he would suddenly reappear, and disarm me with some Delmore Schwartz line about love or courage.
Feline
Definition:
(a.) Catlike; of or pertaining to the genus Felis, or family Felidae; as, the feline race; feline voracity.
(a.) Characteristic of cats; sly; stealthy; treacherous; as, a feline nature; feline manners.
Example Sentences:
(1) This unusual insertion could affect the interaction of cat CD4 with class II molecules, or with FIV, a feline homolog of HIV.
(2) It is clear that before general release of a new living feline infectious enteritis vaccine, there must be satisfactory evidence that concurrent infection will not affect the safety of the modified antigen.In cats infected with feline infectious enteritis there appears to be a short period, coinciding with the onset of leucopaenia, during which they are highly infectious.
(3) The p30 proteins of murine viruses also contain a second discrete set of antigenic determinants related to those in infectious primate viruses and endogenous porcine viruses, but not detected in the feline leukemia virus group.
(4) Mild clinical signs of diarrhoea were noted in kittens infected experimentally with one of the feline reovirus type 2 isolates.
(5) Crandell feline kidney cells in which the ADV-G strain of ADV was permissively replicating contained virion and non-structural proteins, large amounts of single stranded virion DNA, duplex replicative form (RF) DNA, and mRNA.
(6) Cats with urethral obstruction due to naturally occurring disease, feline urological syndrome (FUS), had markedly lower urine Mg concentrations than cats fed high Mg diets.
(7) A new protein of feline infectious peritonitis coronavirus (FIPV) was discovered in lysates of [35S]cysteine-labeled infected cells.
(8) Fusion of these segments created a DNA fragment in which coding regions similar to those observed in the viral oncogenes v-fes of the Gardner-Arnstein (GA) and Snyder-Theilen (ST) strains of feline sarcoma virus and v-fps found in Fujinami sarcoma virus could be identified.
(9) Therefore, the hypothesis of a fetal sensori-neural hearing loss due to oxygen lack was tested in the following animal models: a) Adult cats to which feline red blood cells were infused thus causing a polycythemia similar to fetal conditions; b) Adult rats acclimated to altitude in a hypobaric chamber, inducing erythropoiesis with elevated hematocrit and hemoglobin; c) Neonatal guinea pigs and goats studied when they were less than 12 hours old so that the fetal compensatory mechanisms were still present.
(10) However, the degree of promoter impairment due to the NF1 site mutation varied according to cell type and was least severe in a feline leukemia cell line (T3) which had low levels of nuclear NF1 DNA-binding activity.
(11) Measurement of serum T4 concentration from randomly obtained blood samples was determined to be reliable for diagnosing feline hyperthyroidism.
(12) Wave C may represent the feline analogue of the longer latency human auditory-evoked potential wave P2, insofar as both waveforms are very large amplitude, long duration positivities characterized by long recovery cycles.
(13) In a previous experiment a group of 15 specified pathogen free (SPF) cats were experimentally infected with a Swiss isolate of feline immunodeficiency virus (FIV).
(14) The observed clustering of cases of feline lymphosarcoma suggested that FeLV was an infectious agent for cats.
(15) A competition ELISA utilizing a mAb directed towards a peplomer protein epitope common to TGEV, PRCV and related feline and canine coronaviruses is described.
(16) When microsomes from feline ventricular muscle are centrifuged on continuous linear sucrose gradients, the major peak for the distribution pattern of the dihydropyridine binding sites corresponds in position and shape with the distribution of the Mr 300K polypeptide marker for junctional sarcoplasmic reticulum (SR).
(17) Feline immunodeficiency, virus infection, cryptococcosis, dermatophyte pseudomycetomas, demodicosis, Sézary-like syndrome, and discoid lupus erythematosus in cats are reviewed.
(18) The maturation of feline syncytium-forming virus (FSFV), a member of the foamy virus sub-family (Spumavirinae), has been studied by electron microscopy of thin sections of infected feline embryo (FEA) cells.
(19) An infectious molecular clone of the Petaluma strain of feline immunodeficiency virus (FIV) was isolated from a recombinant bacteriophage library containing genomic DNA prepared from FIV-infected Crandall feline kidney (CRFK) cells.
(20) Antibody titers against feline oncornavirus-associated cell membrane antigen (FOCMA) were tested in 133 of these cats.