61:
to identify basic shapes such as pyramids and spheres (with abnormally high difficulty) but still not tactilely recognize common objects by easily recognizable and unique features such as a fork by its prongs (though the individual may report feeling a long, metal rod with multiple, pointy rods stemming off in uniform direction). These symptoms suggest that a very specific part of the brain is responsible for making the connections between tactile stimuli and functions/relationships of those stimuli, which, along with the relatively low impact this disorder has on a person's quality of life, helps explain the rarity of reports and research of individuals with tactile agnosia.
114:. That is, JH’s ability to recognize depended on his concentration and ability to recognize simple forms and single qualities like size, shape, etc. With further interrogation and greater effort, he was able to correctly identify more specific features of an object (i.e. softness, rounded or cornered, broad or narrow) and could even draw a copy of it, but he was often left unable to identify the object by name, use, or origin. This behavioral deficit occurred even if JH had handled the object in his fully intact right hand.
49:(or tactile agnosia if only one hand is affected) is the inability to identify an object by active touch of the hands without other sensory input, such as visual or sensory information. An individual with astereognosis is unable to identify objects by handling them, despite intact elementary tactile, proprioceptive, and thermal
109:
The majority of all objects JH touched with his left hand went unrecognized, but very simple objects (i.e. globes, pyramids, cube, etc.) were regularly recognized based on form alone. For more complex objects, his behavior and recognition varied daily based on his tactile resources that changed over
60:
Individuals with tactile agnosia may be able to identify the name, purpose, or origin of an object with their left hand but not their right, or vice versa, or both hands. Astereognosis refers specifically to those who lack tactile recognition in both hands. In the affected hand(s) they may be able
80:
results suggest that those with ventral cortex damage are less sensitive to object 3D structure than those with dorsal cortex damage. Unlike the ventral cortex, the dorsal cortex can compute object representations. Thus, those with object recognition impairments are more likely to have acquired
57:(i.e. eyes closed), an individual with astereognosis is unable to identify what is placed in their hand based on cues such as texture, size, spatial properties, and temperature. As opposed to agnosia, when the object is observed visually, one should be able to successfully identify the object.
89:
recounts his experience with patient JH, a 34-year-old infantryman who suffered a lesion to the posterior parietal lobe due to a gunshot. Following the injury, JH was unable to recognize or identify everyday objects by their meaning, origin, purpose and use with his left hand using
84:
While astereognosis is characterized by the lack of tactile recognition in both hands, it seems to be closely related to tactile agnosia (impairment connected to one hand). Tactile agnosia observations are rare and case-specific.
117:
Interventions tend to focus on helping these patients and their family and caregivers cope and adapt to the condition, and furthermore, to help patients function independently within their context.
318:
311:
304:
296:
69:
77:
557:
596:
183:
363:
353:
156:
358:
587:
72:
or parieto-temporo-occipital lobe (posterior association areas) of either the right or left hemisphere of the
228:"Three-Dimensional Representations of Objects in Dorsal Cortex are Dissociable from Those in Ventral Cortex"
625:
606:
326:
552:
494:
723:
665:
652:
564:
537:
592:
630:
602:
416:
148:
698:
672:
569:
477:
610:
140:
682:
91:
8:
718:
646:
396:
620:
510:
421:
401:
376:
327:
208:
659:
525:
484:
441:
391:
276:
249:
200:
152:
141:
54:
33:
212:
744:
515:
239:
192:
86:
73:
268:
614:
426:
226:
Freud, E.; Ganel, T.; Shelef, I.; Hammer, M.; Avidan, G.; Behrmann, M. (2015).
103:
196:
738:
446:
65:
244:
227:
280:
253:
204:
431:
505:
339:
38:
472:
331:
95:
368:
111:
17:
467:
381:
99:
76:. Despite cross-talk between the dorsal and ventral cortices,
335:
50:
147:(5th ed.). Philadelphia: F.A. Davis Company. pp.
138:
225:
588:
Upper dorsal pontine syndrome/Raymond–Céstan syndrome
736:
64:Astereognosis is associated with lesions of the
134:
132:
130:
181:Gerstmann, J. (2001). "Pure Tactile Agnosia".
312:
127:
102:were intact, and he lacked abnormalities in
266:
176:
174:
172:
170:
168:
319:
305:
243:
180:
98:performance, elementary sensitivity, and
165:
139:O'Sullivan, S.B.; Schmitz, T.J. (2007).
737:
191:(3). Translated by T. Benke: 267–274.
553:Lateral medullary syndrome/Wallenberg
300:
13:
565:Medial medullary syndrome/Dejerine
14:
756:
334:associated with lesions of the
267:Kumar, A.; Wroten, M. (2019).
260:
219:
1:
120:
81:damage to the dorsal cortex.
626:Internuclear ophthalmoplegia
7:
10:
761:
15:
724:Upper motor neuron lesion
711:
691:
639:
580:
545:
536:
493:
457:
346:
197:10.1080/02643290042000116
184:Cognitive Neuropsychology
110:time and depended on his
32:
27:
593:Lateral pontine syndrome
631:One and a half syndrome
607:Millard–Gubler syndrome
603:Medial pontine syndrome
143:Physical Rehabilitation
699:Alternating hemiplegia
53:. With the absence of
245:10.1093/cercor/bhv229
719:Pseudobulbar affect
673:Parinaud's syndrome
664:ventral tegmentum,
478:Parkinson's disease
397:Hemispatial neglect
651:ventral peduncle,
621:Locked-in syndrome
611:Foville's syndrome
511:Dysdiadochokinesia
422:Cortical blindness
402:Gerstmann syndrome
377:Expressive aphasia
328:Signs and symptoms
732:
731:
707:
706:
683:Claude's syndrome
660:Benedikt syndrome
526:Cerebellar ataxia
485:Thalamic syndrome
442:Cortical deafness
417:Bálint's syndrome
392:Receptive aphasia
92:tactile sensation
44:
43:
22:Medical condition
752:
647:Weber's syndrome
543:
542:
516:Intention tremor
321:
314:
307:
298:
297:
291:
290:
288:
287:
264:
258:
257:
247:
223:
217:
216:
178:
163:
162:
146:
136:
25:
24:
760:
759:
755:
754:
753:
751:
750:
749:
735:
734:
733:
728:
703:
687:
635:
576:
532:
489:
453:
413:Occipital lobe
347:Cerebral cortex
342:
325:
295:
294:
285:
283:
265:
261:
232:Cerebral Cortex
224:
220:
179:
166:
159:
137:
128:
123:
87:Josef Gerstmann
74:cerebral cortex
23:
20:
12:
11:
5:
758:
748:
747:
730:
729:
727:
726:
721:
715:
713:
709:
708:
705:
704:
702:
701:
695:
693:
689:
688:
686:
685:
680:
679:
678:
670:
669:
668:
657:
656:
655:
643:
641:
637:
636:
634:
633:
628:
623:
618:
600:
590:
584:
582:
578:
577:
575:
574:
573:
572:
562:
561:
560:
549:
547:
540:
534:
533:
531:
530:
529:
528:
520:
519:
518:
513:
508:
499:
497:
491:
490:
488:
487:
482:
481:
480:
475:
470:
464:Basal ganglia
461:
459:
455:
454:
452:
451:
450:
449:
444:
438:Temporal lobe
436:
435:
434:
429:
427:Anton syndrome
424:
419:
411:
410:
409:
404:
399:
394:
388:Parietal lobe
386:
385:
384:
379:
371:
366:
361:
356:
350:
348:
344:
343:
324:
323:
316:
309:
301:
293:
292:
259:
238:(1): 422–434.
218:
164:
157:
125:
124:
122:
119:
42:
41:
36:
30:
29:
21:
16:Main article:
9:
6:
4:
3:
2:
757:
746:
743:
742:
740:
725:
722:
720:
717:
716:
714:
710:
700:
697:
696:
694:
690:
684:
681:
677:dorsal, tumor
676:
675:
674:
671:
667:
663:
662:
661:
658:
654:
650:
649:
648:
645:
644:
642:
638:
632:
629:
627:
624:
622:
619:
616:
612:
608:
604:
601:
598:
594:
591:
589:
586:
585:
583:
579:
571:
568:
567:
566:
563:
559:
556:
555:
554:
551:
550:
548:
544:
541:
539:
535:
527:
524:
523:
521:
517:
514:
512:
509:
507:
504:
503:
501:
500:
498:
496:
492:
486:
483:
479:
476:
474:
471:
469:
466:
465:
463:
462:
460:
456:
448:
447:Prosopagnosia
445:
443:
440:
439:
437:
433:
430:
428:
425:
423:
420:
418:
415:
414:
412:
408:
407:Astereognosis
405:
403:
400:
398:
395:
393:
390:
389:
387:
383:
380:
378:
375:
374:
373:Frontal lobe
372:
370:
367:
365:
362:
360:
357:
355:
352:
351:
349:
345:
341:
337:
333:
329:
322:
317:
315:
310:
308:
303:
302:
299:
282:
278:
274:
270:
263:
255:
251:
246:
241:
237:
233:
229:
222:
214:
210:
206:
202:
198:
194:
190:
186:
185:
177:
175:
173:
171:
169:
160:
158:9780803612471
154:
150:
145:
144:
135:
133:
131:
126:
118:
115:
113:
107:
105:
101:
97:
93:
88:
82:
79:
75:
71:
70:dorsal column
67:
66:parietal lobe
62:
58:
56:
52:
48:
47:Astereognosis
40:
37:
35:
31:
28:Astereognosis
26:
19:
406:
364:PCA syndrome
359:MCA syndrome
354:ACA syndrome
284:. Retrieved
272:
262:
235:
231:
221:
188:
182:
142:
116:
108:
104:brain nerves
83:
63:
59:
46:
45:
599:) (lateral)
432:Pure alexia
94:alone. His
495:Cerebellum
286:2020-01-21
273:StatPearls
121:References
538:Brainstem
506:Dysmetria
458:Subcortex
340:brainstem
332:syndromes
269:"Agnosia"
51:sensation
39:Neurology
34:Specialty
739:Category
640:Midbrain
502:Lateral
473:Dystonia
281:29630208
254:26483400
213:30352886
205:20945214
96:motility
745:Agnosia
615:basilar
546:Medulla
522:Medial
369:Aphasia
151:–1181.
112:fatigue
18:Agnosia
468:Chorea
382:Abulia
330:, and
279:
252:
211:
203:
155:
100:speech
55:vision
712:Other
692:Other
336:brain
209:S2CID
597:AICA
581:Pons
558:PICA
338:and
277:PMID
250:PMID
201:PMID
153:ISBN
149:1180
78:fMRI
666:PCA
653:PCA
570:ASA
240:doi
193:doi
68:or
741::
275:.
271:.
248:.
236:27
234:.
230:.
207:.
199:.
189:18
187:.
167:^
129:^
106:.
617:)
613:(
609:/
605:/
595:(
320:e
313:t
306:v
289:.
256:.
242::
215:.
195::
161:.
Text is available under the Creative Commons Attribution-ShareAlike License. Additional terms may apply.