ライフサイエンスコーパス: intraneural

1 lidated by chronic epicortical (12 week) and intraneural (8 week) implantation.

2 d that CFMA is a novel interface for in-vivo intraneural action potential recordings.

3 (CIDP: N=20); amyloid polyneuropathy (N=20); intraneural B-cell lymphoma (N=20) or adult-onset polygl

4 We developed a multi-channel, high-density, intraneural carbon fiber microelectrode array (CFMA) wit

5 This was accompanied by a reduction of intraneural CD4+ T cells and greater preservation of pre

6 ve enlargement of the nerve with presence of intraneural color Doppler signals suggestive of acute ne

7 nd ankle MRI demonstrated the presence of an intraneural cystic lesion in the posterior tibial neve a

8 we describe the fabrication of a 16-channel intraneural electrode array with ultramicro-dimensioned

9 uscle sympathetic nerve activity (MSNA) with intraneural electrodes in the peroneal nerve while the s

10 thetic nerve activity in the peroneal nerve (intraneural electrodes) and the ECG (surface electrodes)

11 Intraneural ganglion cysts are very uncommon lesions, wh

12 like tumors with diffuse and often extensive intraneural growth.

13 estigated how this influenced post-traumatic intraneural inflammation and neuropathic pain using the

14 Gene therapy trial by intraneural injection in groups of 2-month-old Cx32 KO m

15 After demyelination by intraneural injection of lysolecithin, and during remyel

16 repair following systemic administration or intraneural injection, achieving effective local and sus

17 1 and 7 days after nerve crush; neither did intraneural injections of CNTF and CNTFRalpha enhance re

18 ents, irregular tumor in 1 patient (4%), and intraneural invasion in 2 patients.

19 Type K, 75% of amyloid cases; Type L, 75% of intraneural lymphoma cases; Type M, 100% of APBD cases.

20 the expansion and the proalgesic actions of intraneural macrophages.

21 Intraneural measures of SNS activity directed to muscle

22 rge to the skeletal muscle vasculature using intraneural microelectrodes (peroneal nerve) during intr

23 d skin sympathetic nerve activity (SNA) with intraneural microelectrodes before, during, and for 90 m

24 ortical and perceptual responses elicited by intraneural microstimulation (INMS) of single mechanorec

25 Using the microneurographic technique of intraneural microstimulation (INMS) we stimulated groups

26 superficial peroneal close to the ankle, and intraneural microstimulation was used to identify an are

27 motor units (n = 7 subjects) in response to intraneural motor axon stimulation (13 pulses at 40 Hz,

28 ing has been demonstrated in the cVN with an intraneural multielectrode array.

29 nd leg) sites to study small nerve fiber and intraneural n-syn and p-syn.

30 n is insensitive, but specific, at detecting intraneural needle placement, such that if a motor respo

31 (1) Intraneural p-syn was a reliable in vivo marker of PAF a

32 The natural history of intraneural perineurioma has been inadequately studied.

33 We conclude intraneural perineurioma is a benign hypertrophic (non o

34 We ask if intraneural perineurioma is a pure motor syndrome that r

35 ntensive evaluation is needed for diagnosis, intraneural perineurioma is probably under-recognized.

36 siologic and imaging features and outcome of intraneural perineurioma.

37 This study identifies a common cause for intraneural perineuriomas and an unexpected shared patho

38 Intraneural perineuriomas are benign peripheral nerve sh

39 to investigate for a genetic causal link to intraneural perineuriomas.

40 Intraneural peripheral electrodes have shown promising r

41 neuropathy is associated with an increase in intraneural pressure, and hence ultrasound elastography

42 phy), FVR, and MSNA (obtained through direct intraneural recordings) were measured before and during

43 The average length of the intraneural segment was 10.6 mm (range, 7-18 mm).

44 ong-term usability and clinical relevance of intraneural sensory feedback have not yet been clearly d

45 subjects show the feasibility of the use of intraneural stimulation in clinical settings.

46 ency-specific stimulation of that pathway by intraneural stimulation might improve temporal acuity in

47 ivity and force were recorded in response to intraneural stimulation of single motor axons to thenar

48 On average, intraneural stimulation resulted in significant ICC phas

49 e of low-CF neurons activated selectively by intraneural stimulation.

50 ssels migrate into the hindbrain to form the intraneural vasculature.

51 While the anatomy of intraneural vessels is variable from animal to animal, s

52 spects of the connectivity of perineural and intraneural vessels occur reproducibly within particular

53 regeneration were characterized by increased intraneural volume and minimal grey-scale change.

54 d (4-6 months) with concomitant reduction in intraneural volume as surgical oedema resolved.