Table 3.
Randomized clinical trials evaluating the influence of face-bow transfer on prosthodontic work
| Author and year | Type of study | Number of patients | Age (years) | Technique of prosthesis fabrication | Parameters evaluated | Conclusion |
|---|---|---|---|---|---|---|
| Thorp et al., 1978[12] | RCT | 10 | N/A | Recently constructed dentures were duplicated, hinge axis location and transfer using face-bow | Coincidence of CR and CO | No difference |
| Ellinger et al., 1979[13] | Single blinded RCT | 64 | <65 | Group I - standard technique (no face-bow transfer) Group II - complex technique (face-bow transfer) |
Coincidence of CR and CO, denture stability, denture retention and condition of supporting tissues | No difference |
| Nascimento et al., 2004[14] | Double-blinded RCT crossover design | 5 | N/A | Casts of patients duplicated and divided into two groups Group A - mounted using face-bow Group B - mounted without using facebow |
Number of occlusal contacts and patient satisfaction | Better comfort, stability, and lesser stress to supporting tissue without the face-bow transfer |
| Kawai et al., 2005[8] | Single-blinded RCT | 122 | 45–75 | Patients were divided into two groups, each received dentures made by either T or S methods T - with facebow transfer S - without face-bow transfer |
Patient satisfaction, comfort, function of the denture at 3 and 6 months following delivery measured on 100 mm VAS and visual quantitative scale | No significant difference between two groups |
| Heydecke et al., 2007[15] | Single-blinded RCT crossover trial | 22 | 50–85 | Each patient received 2 sets of dentures, one pair manufactured by intraoral tracing and face-bow transfer, another pair without face-bow transfer | Patient satisfaction regarding aesthetic, appearance, ability to chew, ability to speak and retention of the denture patients’ ratings recorded on VAS after 3 months of delivery | Comprehensive method of denture fabrication does not influence chewing ability and patient satisfaction |
| Heydecke et al., 2008[16] | Single blinded RCT crossover trial | 20 | 50–85 | Each patient received 2 sets of dentures, one pair manufactured by intraoral tracing and face-bow transfer, another pair without facebow transfer | General satisfaction, comfort, ability to speak, stability, aesthetics, ease of cleaning and ability to chew | Patients rated their general satisfaction, denture stability and aesthetic significantly better without face-bow |
| Vivell et al., 2009[17] | Single-blinded RCT | 12 | 21–73 | Group I - arbitrary mounting Group II - hinge axis location, face-bow transfer and mounting |
Occlusal adjustments required | No difference |
| Kumar and d’souza 2010[18] | Single-blinded RCT | 20 | 58–64 | Single-blinded RCT Two sets of dentures for each subject, Technique I – face-bow transfer was done Technique II - without face-bow transfer |
Number of occlusal contacts, time taken, aesthetics, comfort and stability | Better results without face bow balanced occlusion was provided without face-bow |
| Kawai et al., 2010[19] | Single-blinded RCT | 122 | 45–75 | Patients were divided into two groups, each received dentures made by either T or S methods T - with face-bow transfer S - without face-bow transfer |
Production cost and clinician’s labor time | Mean total cost of fabrication of denture was significantly higher and clinician’s spent 90 min longer on clinical care with the face-bow transfers |
| Cunha et al., 2013[20] | Single-blinded RCT | 42 | 46–57 | Group S - patient’s receiving dentures fabricated by simplified method without using face-bow Group C - patients receiving conventionally fabricated denture by using face-bow Group DN - external comparator |
Masticatory performance (colorimetric method) | Better masticatory ability without face-bow use |
| Omar et al., 2013[21] | Double-blinded RCT | 43 | 35–78 | Group I - omission of secondary cast fabrication Group II - omission of secondary cast and face-bow articulator mounting Group III - omission of face-bow mounting Group IV - no steps omitted (control group) |
General satisfaction with new denture, ability to chew | No significant differences within groups |
| Vecchia et al., 2014[22] | Single-blinded RCT | 42 | 57–74 | Group C - denture were fabricated by conventional methods using face-bow Group S - dentures were fabricated by simplified method without using face-bow |
Production cost, clinician’s and dental assistant’s labor time, postinsertion adjustments | Simplified method was found to be less costly for patients, more time efficient for clinicians, assistants and patients |
| von Stein-Lausnitz et al., 2017[23] | Double-blinded RCT | 32 | 44–98 | Group I - mean setting for the transfer of CDs into semi adjustable articulator Group II – face-bow transfer into articulator according to arbitrary hinge axis |
Laboratory and clinical occlusal contact points, extent of vertical shift in relation to the number of laboratory occlusal contacts | No substantial difference by the use of arbitrary face-bow compared to mean setting |
| von Stein-Lausnitz et al., 2018[24] | Double-blinded RCT | 32 | 44–98 | Group I - mean setting for the transfer of CD’s into semi-adjustable articulator Group II – face-bow transfer into articulator according to arbitrary hinge axis |
Oral health index, amount of physical pain, number of sore spots | Face-bow registration has no positive effect on OHRqOL |
| Ahlers et al., 2018[25] | RCT | N/A | N/A | Group I - operators using face-bow transfer to mount casts Group II - operators using average values to mount casts |
Reliability in transfer and validity | Use of an arbitrary face-bow significantly improves transfer reliability and validity |
CR: Centric relation, CO: Centric occlusion, CD: Complete denture, RCT: Randomized controlled trial, VAS: Visual analog scale, OHRqOL: Oral health-related quality of life