ライフサイエンスコーパス: quadrupedal

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1 Hand preference for quadrupedal and bipedal reaching in humans and rhesus ma

2 were found toward use of the right hand for quadrupedal and bipedal reaching in humans and use of th

3 g is approximately 75% less costly than both quadrupedal and bipedal walking in chimpanzees.

4 veals significant differences in bipedal and quadrupedal cost in most individuals, which are masked w

5 The spatio-temporal symmetries of the quadrupedal gaits walk, trot and pace lead to plausible

6 This robot is quadrupedal; it uses no sensors, only five actuators, an

7 nins could indeed have been less costly than quadrupedal knucklewalking.

8 may have been an agile climber that employed quadrupedal locomotion and under-branch hanging behaviou

9 Effective quadrupedal locomotion requires a close coordination bet

10 m cerebellar ataxia, mental retardation, and quadrupedal locomotion syndrome (CAMRQ2).

11 In addition to the identifying quadrupedal locomotion, all three patients showed severe

12 ation in developing and adult mammals during quadrupedal locomotion.

13 Effective quadrupedal locomotor behaviors require the coordination

14 When quadrupedal mammals gallop, 1ratio1 stride per breath co

15 n their typical bipedal (man and chicken) or quadrupedal mode (crawling-baby and cat).

16 d integration between limbs when compared to quadrupedal monkeys.

17 splay the most cursorial morphologies of the quadrupedal ornithischian cades, indicating higher locom

18 Constraints imposed on quadrupedal ornithischians by their ancestral bipedal ba

19 ersity of stances and gaits were employed by quadrupedal ornithischians despite apparent convergence

20 Grouping quadrupedal ornithischians together as a single function

21 o far compiled to examine stance and gait in quadrupedal ornithischians.

22 al repertoire more similar to the pronograde quadrupedal patterns of most monkeys than to the orthogr

23 reater use of the right hand for bipedal vs. quadrupedal reaching in great apes, tufted capuchins, an

24 ching in humans and use of the left hand for quadrupedal reaching in rhesus macaques.

25 reater use of the right hand for bipedal vs. quadrupedal reaching.

26 twithstanding these limitations, trunk-based quadrupedal robot rehabilitation helped the rats to visi

27 Quadrupedal robot rehabilitation was tested using an imp

28 as exhibit lower anxiety in open fields than quadrupedal rodents, a behavior that varies inversely wi

29 significantly less predictable than those of quadrupedal rodents, likely increasing predator evasion

30 In two of the four subjects, quadrupedal rotations were evoked by muscimol applicatio

31 hibition of DLSC did not significantly alter quadrupedal rotations, suggesting that this response is

32 ecular dynamics identifies the motion of the quadrupedal species as pacing (as opposed to trotting or

33 f substrate linkers (converting bipedal into quadrupedal species), and substitution on the ring.

34 k-like lower jaw, long, gracile limbs, and a quadrupedal stance.

35 surgery, the animals were trained to perform quadrupedal stepping on a treadmill, and item retrieval

36 e dorsal surface of the spinal cord) induced quadrupedal stepping-like movements.

37 m is commonly thought to have evolved from a quadrupedal terrestrial precursor, yet some recent paleo

38 to have undergone an ontogenetic shift from quadrupedal-to-bipedal posture, or vice versa, based on

39 venile chimpanzees, we find that bipedal and quadrupedal walking costs are not significantly differen

40 Variation in cost between bipedal and quadrupedal walking, as well as between chimpanzees and

41 MTPJs than do chimpanzees during bipedal and quadrupedal walking, with the greatest disparity occurri

42 nt improvement in hindlimb stepping ability, quadrupedal weight support, and all measures examined.

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