Communication methods and production techniques in fixed prosthesis fabrication: a UK based survey. Part 1: Communication methods


Communication methods  
and production techniques  
in fixed prosthesis fabrication:  
a UK based survey.  
Part 1: Communication methods
J. Berry,1 M. Nesbit,2 S. Saberi2 and H. Petridis*3

and also that members have to ‘communi-
cate clearly and effectively with other team 
members and colleagues in the interest of 
patients’, and that ‘if you ask a colleague 
to provide treatment, a dental appliance or 
clinical advice for a patient, make sure that 
your request is clear and that you give your 
colleague all the information they need’.4 
The prerequisite for a proper prescription 
written by a qualified dentist has also been 
set in the Medical Devices Directive (MDD).5

A number of studies6–12 from different parts 
of the world have highlighted problems and 
confirmed the need for improved communi-
cation methods and production techniques 
between dentists and dental technicians, 
during the fabrication of fixed prosthodon-
tic appliances. Problems seem to occur even 
within the same hospital setting.13,14 Commu-
nication issues have included lack of infor-
mation regarding the prosthesis design and 
materials, the lack of understanding of the 
necessary technical steps and time required, 
and lack of proper shade communication.6–12 
Most of the times, the final decision was left 

INTRODUCTION
Prosthodontics is a discipline that requires a 
synergy between the dentist and dental tech-
nician in order to fabricate intraoral prosthe-
ses with acceptable fit, function and aesthet-
ics.1–3 Proper communication between the 
two parties is very important because, in the 
majority of cases, the dental technicians are 
remotely located and usually never actually 
see the patient. The General Dental Council’s 
(GDC) policy document Principles of dental 
team working4 states that: ‘Members of the 
dental team will work effectively together’, 

Statement of the problem  The General Dental Council (GDC) states that members of the dental team have to ‘communi-
cate clearly and effectively with other team members and colleagues in the interest of patients’. A number of studies from 
different parts of the world have highlighted problems and confirmed the need for improved communication methods and 
production techniques between dentists and dental technicians. Aim  The aim of this study was to identify the communi-
cation methods and production techniques used by dentists and dental technicians for the fabrication of fixed prostheses 
within the UK from the dental technicians’ perspective. The current publication reports on the communication methods. 
Materials and methods  Seven hundred and eighty-two online questionnaires were distributed to the Dental Laboratories 
Association membership and included a broad range of topics. Statistical analysis was undertaken to test the influence of 
various demographic variables. Results  The number of completed responses totalled 248 (32% response rate). The labora-
tory prescription and the telephone were the main communication tools used. Statistical analysis of the results showed 
that a greater number of communication methods were used by large laboratories. Frequently missing items from the 
laboratory prescription were the shade and the date required. The majority of respondents (73%) stated that a single shade 
was selected in over half of cases. Sixty-eight percent replied that the dentist allowed sufficient laboratory time. Twenty-
six percent of laboratories felt either rarely involved or not involved at all as part of the dental team. Conclusion  This 
study suggests that there are continuing communication and teamwork issues between dentists and dental laboratories.

with the technician, without proper feed-
back. All of the above issues, compounded 
by the time pressure for completion of the 
restorations as noted in some studies,8,11 may 
explain the finding that many dental techni-
cians feel insufficiently valued in the dental 
team.11,12,15

A number of studies1,12,14,16 have high-
lighted the lack of suitable instruction to 
dental undergraduates regarding effective 
communication between dentists and tech-
nicians, and the lack of knowledge regard-
ing dental prosthesis fabrication at the time 
of qualification as the main factors for the 
re-occurring problems. This has led to the 
introduction of inter-professional education 
schemes in Australia.17

The last survey of UK-based dental labo-
ratories was published in 2009,12 and sug-
gested that the GDC had failed in its aims 
published in The first five years; a framework 
for undergraduate dental education,18 as seri-
ous communications issues were identified.12

The purpose of this cross-sectional 
study was to identify the communication 

1Clinical Lecturer, Department of Adult Oral Health, 
Institute of Dentistry, Barts and The London School of 
Medicine and Dentistry, Queen Mary University of Lon-
don, London; 2Senior Technical Instructor, Prosthodontic 
Unit, UCL Eastman Dental Institute, London; 3Senior 
Lecturer, Department of Restorative Dentistry, Prostho-
dontics Unit, UCL Eastman Dental Institute, London 
*Correspondence to: Dr Haralampos (Lambis) Petridis 
Email: c.petridis@ucl.ac.uk 

Online article number E12 
Refereed Paper - accepted 19 June 2014 
DOI: 10.1038/sj.bdj.2014.643  
©British Dental Journal 2014; 217: E12

• Highlights the importance of dentist-
technician communication.

• Concludes that dentists must ensure 
that written prescriptions contain all the 
necessary information so that the dental 
technician can fabricate fixed prostheses 
correctly and without delay.

• Recommendations for improved 
communication are made with the 
ultimate goal of better patient service.

I N  B R I E F

R
E
S
E

A
R

C
H

OPEN

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RESEARCH

methods and production techniques used 
by dentists and dental technicians for the 
fabrication of fixed prostheses within the 
UK from the dental technicians’ perspec-
tive. The current publication reports on the  
communication methods.

MATERIALS AND METHODS
A questionnaire was constructed to investi-
gate communication methods and produc-
tion techniques used between dentists and 
dental laboratories from the laboratories 
perspective. An effort was made to include 
a broad range of topics. At the same time 
elements of previously published research 
were incorporated in order to obtain mean-
ingful results that would be comparable to 
past surveys. The final questionnaire con-
sisted of 30 questions within the following 
subcategories: general information, com-
munication methods, impression disinfec-
tion and suitability, production techniques, 
shade matching, and time and team manage-
ment issues. The questionnaire was piloted 
among dental technicians both at UCL East-
man Dental Institute and in selected com-
mercial laboratories.

The Dental Laboratories Association 
(DLA, Nottingham, UK) was approached and 
approved the use of their database of e-mail 
contacts (782 addresses). 

A web-based survey tool, Opinio (Object-
Planet Inc. Oslo, Norway), was utilised for 
the administration of the survey and assim-
ilation of data. Settings were managed in 
order to ensure anonymity of respondents. 
The questionnaire weblink along with an 
introduction letter, were distributed through 
the DLA. The survey was ‘live’ for 6 weeks, 
and during that time the response rate was 
actively monitored and three e-mail remind-
ers were sent. 

The collected data was presented as 
descriptive statistics and analysed using 
Fisher’s exact test, the Mann-Whitney test 
or the Spearman’s rank correlation (SPSS 
12.0; SPSS Inc, Chicago). P-values of less 
than 0.025 were regarded as statistically sig-
nificant. A significance level of 2.5% was 
chosen rather than the conventional 5% to 
avoid spuriously significant results arising 
from multiple testing.

The null hypothesis was that factors 
such as the source of information used 
to answer the questionnaire, the location, 
and size of the dental laboratory, did not 
influence the communication methods and  
production techniques.

RESULTS
The number of responses totalled 248, 
which yielded a 32% response rate. Sixty-
eight  respondents answered only some of 

the questions. The results presented in this 
paper pertain to the subchapters of general 
information, communication methods, shade 
matching, and time and team management 
issues. The subchapters and questions along 
with the results in parentheses are depicted 
in Table 1.

The majority of the information (81%) used 
to answer the survey questions were sourced 
from memory and 19% of respondents used 
their laboratory records. Ninety  percent of 
the respondents were based in England. This 
unequal distribution among England, Scot-
land, Wales and Northern Ireland did not 
permit any further analysis of this particular 
factor. The majority of dental laboratories 
(73%) completed work for less than 50 den-
tists and 13% worked with over 100  den-
tists. For analysis purposes the labs were 
grouped into three categories regarding size: 
small (43% working with up to 25 dentists), 
medium (38% working with 26-75 dentists) 
and large (19% working with 76+ dentists).

The results of this study showed that the 
laboratory prescription and the telephone 
were the main communication tools used 
between dentists and dental technicians. 
Digital means, whether by e-mail or photog-
raphy, also played an important role (Fig. 1). 
Statistical analysis of the results showed that 
a greater number of communication methods 
were used by large laboratories (Table 2) and 
that the source of information did not play 
a significant role. 

Almost a quarter of the respondents (24%) 
indicated that more than half of laboratory 
prescriptions had an inadequate amount 
of information on them throughout the 
course of treatment and 13% had to con-
tact the dentists for further information. The 
two most frequently missing items from the 
laboratory prescription were the shade and 
the date required. These results were not 
influenced by the size of the laboratory or 
the source of information, with the excep-
tion of the responses about contact with the 
dentist for further information (p = 0.002). 
This was more common in the group provid-
ing information from records, where 22% 
reported having to contact the dentist over 
half the time, compared to only 10% in the 
memory group. Also, mid-sized laboratories 
reported a greatest percentage (79%) for 
shade missing compared (p  =  0.01) to the 
two other groups (60%).

Some of the additional comments in this 
section of the questionnaire indicated that 
the need for further communication was 
time consuming, with the dentist often being 
difficult to contact during normal surgery 
hours and also stressed the fact that some 
prescriptions were illegible or were not fully 
completed but had additional comments 

Table 1  Relevant subchapters of the 
questionnaire with answers in percentages 
in parentheses

GENERAL INFORMATION
1.  Please indicate the source of the information 

that you will be giving:
 From memory (81%)   From records (19%)
2.  This survey is anonymous so please indicate the 

country that you are based in:
 England (90%)   Scotland (4%)
 Northern Ireland (1%)   Wales (5%)
3.  Approximately, what number of dentists do you 

currently work with?
 1–25 (43%)   26–50 (30%)   51–75 (8%)  
 76–100 (6%)   100+ (13%)

COMMUNICATION METHODS
4.  Please select all the methods of contact used by 

dentists to communicate with you:
 Laboratory prescription (98%)   Telephone (93%)  
 Text messaging (29%)   Email (73%)  
 Digital photography (67%)   Other (10%)
Please add any relevant comments

5.  With regards to the laboratory prescriptions for 
fixed restorative work, what percentages have 
an inadequate amount of information on them 
throughout the course of treatment?

 0-25% (54%)   26-50% (22%)
 51-75% (16%)   76-100% (8%)
6.  What percentage of laboratory prescriptions  

do you have to contact the dentist to obtain 
further information?

 0-25% (65%)   26-50% (22%)
 51-75% (8%)   76-100% (5%)
7.  Please indicate the two most common items 

missing from the laboratory prescription when 
received from the dentist.

 Patient’s name (6%)   Shade (75%)   
 Date required (60%)   Material to be used (32%) 
 Tooth notation (18%)   Other (9%)
Please add any relevant comments

SHADE MATCHING
25.  What percentage of the time is a single shade 

(for example, A3 or B2) specified for crown and 
bridgework?

 0-25% (7%)   26-50% (20%)
 51-75% (33%)   76-100% (40%)
26.  What percentage of dentists would send you 

a photograph of the patient’s teeth with the 
shade tab to help you with shading?

 0-25% (81%)   26-50% (10%)
 51-75% (7%)   76-100% (2%)
27.  What percentage of dentists would send a 

patient to you to do the shade matching?
 0-25% (75%)   26-50% (15%)
 51-75% (9%)   76-100% (1%)

TIME & TEAM MANAGEMENT ISSUES
28.  Do you feel that the dentist generally allows 

you adequate time to complete the fabrication 
of the crown/bridge to the best of your ability, 
and return it to the dental practice?

 Yes (68%)   No (32%)
Please comment 

29.  How involved do you feel as part of the  
dental team?

 Completely involved (22%)   
 Partly involved (52%)   Rarely involved (24%)  
 Not involved (2%)
30.  Please add any further comments that you 

may have on the communication between the 
dentist and laboratory:

 (63 additional comments)

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RESEARCH

written on them such as ‘see e-mail’ or ‘I 
will call you to discuss’ or ‘please call me’.

Regarding shade selection and communi-
cation, the results of this study showed that 
the majority of respondents (73%) received 
a single shade for over half of the cases 
and 81% rarely (0-25% of cases) received 
any photographs with the patient’s teeth 
and shade guide. Only a minority of dental 
technicians (9%) reported regularly seeing 
patients for shade matching. Statistical anal-
ysis showed that these results were not influ-
enced by the source of information. A sta-
tistical significance (p = 0.02) was detected 
between the size of lab and a single shade 
chosen. Large laboratories were more likely 
to receive instruction for a single shade. 
However, with regards to sending a patient 
to the laboratory for shade taking there was 
a negative correlation (p  =  0.02) suggest-
ing that larger dental laboratories were less 
likely to see patients for shade taking.

The last section on communication per-
tained to time and management issues. 
Sixty-eight  percent of technicians replied 
that the dentist allowed sufficient time for 
fabrication of the definitive prosthesis and 

its return to the dental practice. The major-
ity (74%) of dental technicians felt that they 
were either completely or partly involved in 
the dental team. However, one-quarter of the 
respondents (26%) felt either rarely involved 
or not at all. A number of respondents seized 
the opportunity to further comment and the 
following is a small selection:

‘On the whole communication has got bet-
ter but I feel the laboratory must make a 
stand with their clients to get the best treat-
ment for both the patient and themselves.’

‘I have worked in dentistry now for many 
years and the issue of lack of communication 
in the dental team has been a continuing one, 
which never seems to be resolved.’

‘I feel that dentists need to realise how valu-
able the technician’s experience and knowledge 
are, and include them as part of the team and 
not consider them as a personal servant.’

‘Would like a bit more appreciation 
shown!!!!!!’

‘By far my happiest clients with the hap-
piest patients are the ones that communicate 
with the laboratory and view it as part of a 
team effort to achieve the right result for 
the patient.’

‘I feel that in general dentists think of us as 
an afterthought, not really appreciated. Just 
a thank you now and again would be nice.’

‘The main problem occurs when it is nec-
essary to speak to the surgeon and he is 
unavailable due to surgery.’

‘Technicians should attend more lectures 
and courses with the dentists to appreciate 
the dentist’s point of view and exchange 
opinions and ideas.’

‘I am a laboratory owner and communicate 
with dental surgeons on a frequent basis. 
I find my contact to be almost invariably 
friendly and professional.’

‘Private clients value technical support 
and involvement. NHS customers just tell 
me they want a crown that “drops on” and 
is completely clear of the occlusion.’

‘Most surgeons give plenty of time, but 
some only give 1 week when it arrives in the 
lab after 2 days in the post.’

‘I feel that the dentists do not check their 
impressions.’

DISCUSSION
The purpose of this cross-sectional study 
was to identify the communication methods 
and production techniques used by dentists 
and dental technicians for the fabrication 
of fixed prostheses within the UK from the 
dental technicians’ perspective. The current 
publication reports on the communication 
methods and team issues. The last similar 
UK study was published in 2009.12

The response rate was 32%, which falls 
into the range of other published surveys 
of dental laboratories.10,11,12,19 The difference 
with the current survey was the fact that it 
was administered online, in the hope to make 
it more appealing and easy for respond-
ents.20,21 Nevertheless, it has been shown22 
that web and postal surveys yield similar 
response rates if certain protocols are fol-
lowed. A limitation of the current survey 
was the fact that no distinction was made 
between those laboratories providing a 
fully private service, a fully NHS service or 
a mixed arrangement. These diverse cohorts 
might be experiencing different communica-
tion issues and might be utilising alternative 
fabrication methods. Juszczyk et al.10 in their 
2009  survey used the same DLA database 
and reported that the majority (61%) of den-
tal laboratories reported doing a mixture of 
NHS and private work. A previous study6 
looking at the quality and prescription of 
single crowns in Wales reported more prob-
lems with NHS compared to privately funded 
work, but no statistics were possible due to 
the limited sample size.

The majority of the information used to 
answer the survey questions were sourced by 
memory. Most of the published surveys have 

0 50 100 150 200 250

Number of replies

Laboratory prescription

Telephone

Text messaging

Email

Digital photography

Other

Fig. 1  Bar chart showing the methods of contact used by dentists in communicating with the 
dental laboratory

Table 2  Fisher’s exact test relating size of laboratory to communication methods used

Lab size
Small (n = 106)
Number (%)

Medium (n = 95)
Number (%)

Large (n = 47)
Number (%)

P-value

Lab prescription 87 (82%) 86 (91%) 44 (94%) 0.08

Telephone 78 (74%) 83 (87%) 44 (94%) 0.004

Text messaging 19 (18%) 26 (27%) 18 (38%) 0.02

Email 50 (47%) 72 (76%) 40 (85%) <0.001

Digital photography 48 (45%) 60 (63%) 40 (85%) <0.001

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RESEARCH

not focused on this issue with the exception 
of Hatzikyriakos et al.11 who reported a simi-
lar finding, and a previous survey23 where it 
was anecdotally reported that most of the 
answers were sourced by financial records. 
The use of memory may introduce personal 
bias and thus affect the accuracy of the infor-
mation. The dental technicians could have 
exaggerated the degree of lack of informa-
tion and unsatisfactory work received from 
the dentists. Similarly their personal bias 
could have affected the responses on their 
own laboratory procedures. In this study, 
however, the statistical analysis showed that 
the method of resourcing information did 
not play a significant role. 

The results of this study showed that the 
main method of communication between 
dentists and dental laboratories is still the 
written prescription and telephone con-
tact. This is in agreement with the previ-
ous UK-based survey.12 Statistical analysis 
of the results showed that a greater number 
of communication methods were used by 
large laboratories and this is the first time 
that this has been reported. This could be a 
reflection on the degree of knowledge on 
the use of different communication methods 
within a larger group, or the need to have 
multiple modes of communication because 
of the logistics of maintaining contact with 
a larger number of dentists.

The results of this study showed that in 
approximately half of the cases the labo-
ratory prescription was lacking important 
information. This reaffirms the findings 
of past surveys.6,9,10 The statistical analysis 
also revealed that the group that based their 
answers on records reported even higher per-
centages for the need to obtain further infor-
mation from the dentist, compared to techni-
cians basing their answers on memory. This 
implies that the problem might have been 
under-reported in this survey. The two most 
common items missing from the written pre-
scription were the ‘shade’ and ‘date required’, 
which is in conflict with the results reported 
by Stewart13 who reported the absence of 
the ‘departmental clinic’ and the ‘name of 
the prescribing dentist’ as the most frequent 
omissions. Statistical analysis of the results 
indicated that there was no statistical asso-
ciation between the size of the lab and the 
items missing from the prescription except 
for shade (p = 0.01). The analysis suggested 
that mid-sized laboratories reported the 
highest percentage of missing values (79%), 
with the percentage only around 60% in the 
two other groups.

Shade selection may be a quite complex 
and individualised procedure24 yet this sur-
vey showed that dentists regularly chose 
a single shade for most of the cases. The 

statistical analysis also showed that this was 
most common with large laboratories. No 
other UK studies reported on this parameter. 
This is consistent with the findings of Jen-
kins et al.6 in Wales, and Hatzikyriakos et al.9 
in Greece who reported that a single shade 
tab was chosen 50% of the time. A useful 
adjunct to the written prescription would be 
a photograph of the tooth in question, ide-
ally with the shade tab placed adjacent to 
it,14,19,24 but the extent of use has not been 
previously reported. This simple accessory 
measure, however, was only occasionally 
used according to the responses in this sur-
vey. If the dentist is not confident in shade 
matching, and is not prepared to use other 
measures such as photographs, an alterna-
tive solution would be to send the patient 
to the dental laboratory.7,24 Alternatively, 
some dentists arrange for the technician to 
visit the practice and meet the patient. How-
ever, the results showed that this method 
of communication was not a popular one. 
Statistical analysis showed that technicians 
working in large laboratories were less likely 
to see patients for shade taking (p = 0.02). 
No other comparable research data was 
sourced on the frequency of dental techni-
cian shade taking in the UK. However, in 
a study conducted in Greece11 almost 30% 
of shade selection was undertaken by the 
dental technicians. A possible explanation of 
the different results might be that the dental 
laboratory is not conveniently accessible for 
the patient, which further strengthens to use 
of photography as an aid to shade matching. 
Nowadays, many dentists within the UK use 
a postal service to send the impressions/casts 
to dental laboratories some distance from 
the practice.

The vast majority (68%) of the dental lab-
oratories felt that the dentist did allow them 
adequate time to complete the fabrication 
of the crown or bridge to the best of their 
ability and to return it back to the dental 
practice. This is in contrast with two previ-
ous studies in Greece11 and Ireland,8 which 
reported that the majority of dental techni-
cians thought that they were pressured for 
time. Undergraduate training rarely involves 
the student undertaking any fixed prosthetic 
laboratory procedures and as a result the 
dentist may fail to understand the complexi-
ties of manufacture and especially the time 
required.

The UK study by Juszczyk et al.12 reported 
that ‘54% of dental technicians working in 
a commercial laboratory did feel an integral 
part of the dental team’. In this survey 22% 
felt completely involved, the majority of 
52% feeling partly involved. The question-
naire allowed the dental laboratory to pass 
on any additional comments on the survey 

title. In general the comments indicated that 
communication methods have improved but 
there are still many unresolved issues.

A number of papers1,14,25 have recom-
mended that dental school curricula should 
reinforce the teaching of both the technical 
stages of laboratory fabrication as well as 
proper dentist-technician communication in 
order to ensure high quality team working 
later on. This has been recognised at Griffith 
University in Australia17 with the introduction 
of formalised inter-professional education 
between students of dentistry, dental tech-
nology, dental therapists and hygienists. The 
adoption of similar changes in the curricula 
of UK dental schools would be recommended. 
One more way of strengthening communica-
tion may be through organising more contin-
uous professional development courses with 
participation from both parties encouraged.

CONCLUSIONS
Within the limitations of this UK-based study, 
the following conclusions could be drawn:
1. The main methods of communication 

between the dentists and dental 
laboratories are written prescriptions 
and telephone contact. Newer 
technologies such as digital 
photography and e-mail are playing an 
increasing role

2. The number of communication methods 
used by laboratories is directly related 
to their size

3. The laboratory prescriptions often lack 
important information, such as shade. 
When shade was prescribed, it was 
usually a single tab

4. Dental laboratories were, in the main, 
content with the time allocated for the 
prescribed work to be fabricated

5. The majority of dental laboratories felt 
that they were part of the dental team, 
but there were still some elements 
of dissatisfaction that need to be 
improved upon.

The authors acknowledge the Dental Laboratories 
Association for their valuable assistance in carrying 
out this survey and Dr Aviva Petrie for her advice 
regarding the statistical analysis.
The authors declare that they have no conflict of 
interest with respect to the submitted work.

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	Communication methods and production techniques in fixed prosthesis fabrication: a UK based survey. Part 1: Communication methods
	Introduction
	Materials and methods
	Results
	Discussion
	Conclusions
	Acknowledgements
	Note
	References