What's the difference between trapeziform and trapezoid?

Trapeziform


Definition:

  • (a.) Having the form of a trapezium; trapezoid.

Example Sentences:

  • (1) When performing this, it is necessary to restore the filtrum, mental fossa and commissures of the mouth slit with the trapeziform flaps.
  • (2) Four or five trapeziform mantle cells are connected closely with each other to form the shell of the neuromast.
  • (3) The formation of a commissure by a trapeziform flap of skin and fatty tissue of the palmar layer and palm is the foundation of the operation.
  • (4) In the paper, the author suggests an essentially new method of dilation of the oral orifice and elimination of mouth angles deviations basing on the principle of new redistribution of local tissues by means of rotation of a trapeziform graft of the mucosa with its submucous layer from the buccal and adoral region.
  • (5) The constant electric field was shown to be characterized by a fine structure of distribution of electric potential differences (EPD) along the skin in relation to a referent point located on the neck in the intersection region of trapeziform and clavicular-nipple muscles.
  • (6) In the cultures obtained by inoculating sputum samples faken from patients with bronchial infection into solid agar medium prepared on Hottinger's hydrolysate with fresh rabbit blood added Haemophilus influenzae produced colonies varying in their from (dome-shaped, conical, trapeziform), as well as in the morphology of the organisms.

Trapezoid


Definition:

  • (n.) A plane four-sided figure, having two sides parallel to each other.
  • (n.) A bone of the carpus at the base of the second metacarpal, or index finger.
  • (a.) Having the form of a trapezoid; trapezoidal; as, the trapezoid ligament which connects the coracoid process and the clavicle.
  • (a.) Of or pertaining to the trapezoid ligament; as, the trapezoid line.

Example Sentences:

  • (1) Proenkephalin A-related immunoreactive neuronal perikarya were detected in the central gray, reticular formation, nucleus raphes, trapezoid body, nucleus parabrachialis lateralis and medialis, nucleus spinalis nervi trigemini, nucleus dorsalis nervi vagi, and in the nucleus tractus solitarii.
  • (2) From the tissue distribution of 800 microCi MAb E48, the absorbed cumulative radiation doses of tumour and various organs were calculated using the trapezoid integration method for the area under the curve.
  • (3) The responses of afferents were further studied using sinusoidal and trapezoidal stimuli aligned as closely as possible with the orientation of their response vector.
  • (4) The trapezoidal shape of the vertebrae and scarring of the soft tissues within the concavity made correction difficult.
  • (5) From plasma drug concentration-time data, best estimates for the bioavailability parameters of peak plasma phenobarbital concentration (Cmax) and time to peak concentration (tmax) were obtained by curve fitting and area under the plasma drug concentration-time curve (AUC) computed with the trapezoid rule.
  • (6) At low pH, it is theorized that the trapezoidal profile of the dimer is shifted to a more rectangular configuration such that flat ribbons are formed by the lateral association of dimers.
  • (7) DYN B cell bodies were present in nonpyramidal cells of neo- and allocortices, medium-sized cells of the caudate-putamen, nucleus accumbens, lateral part of the central nucleus of the amygdala, bed nucleus of the stria terminalis, preoptic area, and in sectors of nearly every hypothalamic nucleus and area, medial pretectal area, and nucleus of the optic tract, periaqueductal gray, raphe nuclei, cuneiform nucleus, sagulum, retrorubral nucleus, peripeduncular nucleus, lateral terminal nucleus, pedunculopontine nucleus, mesencephalic trigeminal nucleus, parabigeminal nucleus, dorsal nucleus of the lateral lemniscus, lateral superior olivary nucleus, superior paraolivary nucleus, medial superior olivary nucleus, ventral nucleus of the trapezoid body, lateral dorsal tegmental nucleus, accessory trigeminal nucleus, solitary nucleus, nucleus ambiguus, paratrigeminal nucleus, area postrema, lateral reticular nucleus, and ventrolateral region of the reticular formation.
  • (8) Degenerative changes in the scapho-trapezial-trapezoidal (ST) joint may occur as an isolated process or more frequently as a dominant part of pantrapezial degenerative joint affections.
  • (9) The majority of units were recorded in the ventral component of the trapezoid body.
  • (10) They can be summarized as: mesial shifting of the maxilla, dimensional increase of the mandibular body, ovoidal upper arch with a deeper palatal vault, tapering or trapezoidal lower arch.
  • (11) The AUC-integrated concentration was significantly higher than the AUC-trapezoid.
  • (12) Principal cells in the medial nucleus of the trapezoid body (MNTB) are believed to be critical components in the circuit subserving sound localization.
  • (13) The lowest threshold values for current strength, energy and charge were observed when defibrillating the heart by means of rectangular impulses and especially by trapezoidal impulses with ascending slope.
  • (14) That means that rectangular or trapezoidal impulses with an ascending slope may be most conveniently used for cardiac defibrillation.
  • (15) Two femoral neck fractures ten years following Trapezoidal-28 THA have recently been referred to our clinic.
  • (16) Therefore, the velocity profile is "trapezoidal" rather than parabolic at all times during the pulsation period.
  • (17) Trapezoidal and triangular gradient lobe shapes are analyzed.
  • (18) The authors report a case of posterior dislocation of the trapezoid bone together with the second metacarpal.
  • (19) The wrist motion remaining after simulated arthrodeses was as follows: capitate-hamate: flexion (Flx) 98%, extension (Ext) 92%, ulnar deviation (UD) 96%, radial deviation (RD) 90%; scaphoid-lunate: Flx 97%, Ext 91%, UD 90%, RD 91%; scaphoid-trapezium-trapezoid: Flx 86%, Ext 88%, UD 67%, RD 69%; scaphoid-lunate-triquetrum: Flx 91%, Ext 82%, UD 86%, RD 70%; capitate-lunate: Flx 70%, Ext 59%, UD 89%, RD 79%; capitate-hamate-triquetrum: Flx 88%, Ext 79%, UD 88%, RD 81%; hamate-triquetrum: Flx 90%, Ext 85%, UD 89%, RD 94%; scaphoid-trapezium-trapezoid-capitate: Flx 85%, Ext 77%, UD 64%, RD 57%.
  • (20) The trapezoid compression frame is recommended as an alternative to conventional methods of treating unstable fractures and dislocations of the pelvic girdle.

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