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Archived at the Flinders Academic Commons 
http://dspace.flinders.edu.au/dspace/ 
 
This is the author’s final corrected draft of this article. It has undergone peer review. 
 
The original publication is available at www.springerlink.com 
 
Publisher’s website: http://www.springerlink.com/content/pt54r510t8870104/ 
 
Citation: A.J. Roberts-Thomson, N. Massey-Westropp, M.D. Smith, M.J. Ahern, J. 
Highton and P.J. Roberts-Thomson The use of the hand anatomic index to assess 
deformity and impaired function in systemic sclerosis”, Rheumatology International 
26(5): 439-444. 2006 Mar. 



THE USE OF THE HAND ANATOMIC INDEX TO ASSESS  DEFORMITY 
AND IMPAIRED FUNCTION IN SYSTEMIC SCLEROSIS 

 
 

A.J. Roberts-Thomson1, N. Massy-Westropp2, M.D. Smith3, M.J. Ahern3,  J. Highton4,  
P.J. Roberts-Thomson3. 
 
1. Occupational Therapy student, University of South Australia. 
 
2. Occupational Therapist, Department of Orthopaedics, Repatriation General 

Hospital, Daw Park, South Australia. 
 
3. Rheumatology Unit, Repatriation General Hospital, Daw Park, South 

Australia.         
 
4. Department of Medicine, University of Otago Medical School, Dunedin, New 

Zealand.  
 
Correspondence to: P.J. Roberts- Thomson, Rheumatology Unit  
   Repatriation General Hospital 
   Daws Road, Daw Park, South Australia  5041. 
   Phone: (618) 8204 4585, Fax: (618) 8204 4158 
   Email: peter.roberts-thomson@flinders.edu.au 
 
 
Running Title:  Hand Anatomic Index in Scleroderma  
 



 
ABSTRACT 

Objective: 
 
To determine the “hand anatomic index” (HAI - a quantitative measure of hand 

deformity)  in systemic sclerosis (scleroderma) and to compare it with other measures 

of hand deformity and functional impairment. 

Methods: 

The HAI (measure of open hand span minus closed hand span/lateral height of hand) 

was determined in 30 patients with scleroderma and compared with hand deformity 

(as assessed by two independent rheumatologists) and  with the Health Assessment 

Questionnaire (mHAQ), hand strength and prehensile gripability data. 

Results: 

The HAI was confirmed as a reliable measure which clearly distinguished patients 

with increasing hand deformity and separated patients with diffuse scleroderma 

(n=12) from limited scleroderma (n=18), p=0.005.  The HAI correlated significantly 

with measures of global functional impairment (as measured by the MHAQ) r=-0.46, 

p=0.01, hand strength r=0.51, p=0.0001 and prehensile gripability, r=-0.37, p=0.05 

but not with disease duration r=-0.16, p=NS nor age at disease onset r=0.20, p=NS.  It 

was estimated that the HAI accounts for ~25% of the total global disability (as 

measured by HAQ).  

Conclusion: 

Measurement of the HAI in scleroderma provides a reliable and objective measure 

reflecting variable degrees of hand deformity and functional impairment and might 

provide a valid clinical outcome measure in patients with this disabling disorder.   

 
Key words: Scleroderma, Hand Anatomic Index, Deformity, Functional 

Impairment.  



A simple quantitative measurement of hand deformity in scleroderma would be a 

valuable clinical parameter particularly in the initial assessment of such patients and 

their subsequent follow up.  Furthermore such an assessment of hand deformity might 

also closely relate to functional impairment, a clinical measure of much importance. 

Recently Highton and colleagues1 have derived a hand anatomic index (HAI) from the 

measurements of certain hand dimensions and have shown it can clearly distinguish 

patients with rheumatoid arthritis (RA) from healthy controls.  Additionally these 

investigators showed in their rheumatoid patients a significant correlation between 

this HAI and measure of disease duration, disease activity and functional impairment 

(as assessed by the modified Health Assessment Questionnaire (HAQ). They provided 

strong evidence, therefore, in support of their hypothesis that quantitative 

measurements of visible, structural abnormalities of the hands will detect the presence 

of RA and reflect its severity.  

We have therefore derived this same HAI in 30 patients with scleroderma and 

compared it with a number of validated functional measurements. Our results support 

the notion that the determination of the HAI might provide a simple and clinically 

relevant measure of impairment of hand function in this enigmatic and frequently 

disabling disorder.  



METHODS 

Patients  

Thirty patients with scleroderma were selected arbitrarily (i.e. without prior 

knowledge of their disease subtype or severity) from the South Australian 

Scleroderma Register2 according to their geographic accessibility (i.e. closeness to 

research unit) and their willingness to participate in the study.  Twelve of these 

patients had diffuse scleroderma and 18 limited scleroderma ( with the disease  being  

subtyped according to the criteria as discussed by LeRoy and colleagues3). The 

demographics, disease subtype, disease characteristic and serology of this patient 

cohort are listed in Table 1. 

Hand Anatomic Index 

The HAI was determined by the method of Highton1 with the modification that 

callipers and ruler were used to determine the three hand dimensions rather than the 

determination using a computerised video imaging analytical program as initially 

described.  The HAI is defined as the measurement of maximum hand spread (a) 

minus measurement of closed hand span (b) divided by measurement of maximum 

lateral hand height (c) (i.e. (a-b) c  where a = distance of maximum hand spread 

measured from middle tip of thumb to middle tip of fifth digit, b = distance of closed 

hand with thumb lying extended against index finger from middle tip of thumb to 

middle tip of fifth digit and c = distance of maximum hand height (from lateral view 

of open hand – generally from the apex of the most prominent MCP joint to the 

base)).  The HAI was determined for both dominant and non dominant hands with the 

HAI (m) being the mean of the two values.         



  

Functional Assessments 

Health Assessment Questionnaire (HAQ). Patients were requested to complete a 

modified HAQ4  

Hand Grip Strength 

Hand grip strength was measured using a calibrated Jamar dynamometer according to 

the standardised method of Fess5. 

Prehensile Hand Gripability  

Prehensile hand gripability as measured according to the method of Dellehag6. In brief 

the gripability test was scored according to the combined time to complete 3 separate 

tasks, viz 1) placing flexi grip stocking over the non-dominant hand, 2) positioning of 

a paper clip on an envelope and 3) pouring water from a plastic jug into a cup.  

Digital Photography 

Digital photography of the hands in 3 views (antero-posterior view of hand in 

extended and closed position and lateral view of open hand) were obtained for each 

patient. Hand deformity was assessed by having 2 rheumatologists in a blinded but 

concasual fashion grade these images as normal, mild, moderate or grossly deformed 

Ethics  

The project had the approval of the Flinders Clinical Research Ethics Committee with 

all patients giving written consent to participate in the study. 

Statistical Analysis 

In general non-parametric statistical tests (Stata version 8 software) were used with a 

p value <0.05 being considered significant. Test-retest reliability was determined by 

intraclass correlation coefficient.   Comparison between groups was performed using 

the Mann-Whitney test while correlation between two variables was assessed using 

Spearman rank-order correlation coefficients (r).  



 

RESULTS 

To confirm reliability of the HAI we measured the 3 specific hand dimensions on two 

occasions in 5 patients. Calculated test-retest reliability correlation coefficient was 

0.994.           

The  HAI (m)  was then correlated with hand deformity as assessed in a blinded 

fashion by 2 independent senior rheumatologists viewing 3 hand digital photographs 

from each patient.  A progressive decline in the mean HAI was observed between 

hands graded as normal to those with gross deformity (r=-0.77, p=0:0000, Figure 1).  

 Patients were then divided into those with limited and diffuse cutaneous scleroderma 

and the HAI (m) plotted (Figure 2).  Patients with diffuse scleroderma had 

significantly lower values that those with limited scleroderma (p = 0.005, Mann-

Whitney). The HAQ (m) was then correlated with HAQ score, hand strength, hand 

gripability, age at onset, and disease duration and the results are tabulated (Table II) 

and selected scatter plots are shown Figures 3, 4 and 5.  Of particular interest was the 

significant correlation observed between the HAI (m) with other measures of hand 

functions and global disability (as measured by the HAQ). It was established by 

regression analysis that the HAI (m) accounts for ~ 25% of the total HAQ variance. 



DISCUSSION 

We describe a simple and reliable measure of  quantifying hand anatomical deformity 

in scleroderma, have noted that it can discriminate significantly between patients with 

diffuse and limited cutaneous scleroderma and have then correlated this HAI with 

other measures of hand functional impairment and global impairment.  We conclude 

that the HAI appears to have good construct validity in scleroderma but that further 

studies will be required to test its sensitivity to change over time.  

 

The HAI was recently described by one of us1 (JH) and was shown to produce a 

reliable measure to reflect the progression of anatomical abnormality of the hand 

caused by rheumatoid arthritis. As such it was suggested that it might provide a useful 

outcome measure in rheumatoid arthritis1.  

 

Hand deformity with disability is a prominent feature in scleroderma and we have 

therefore determined the HAI in 30 patients with this disease. In order to further 

simplify the measurement of the HAI we have modified the original description by 

removing the need for computerised video image analysis – we have merely measured 

the necessary hand dimensions using a calliper and ruler.  We have verified that this is 

a reliable measure by replicating our measures in the same patient thus confirming its 

reproducibility.  Further we have shown that the HAI will clearly distinguish between 

patients with diffuse and limited scleroderma the former having greater anatomical 

deformity as would be expected by the greater degree of flexural contractures and 

joint immobility seen in this more severe variant.  In addition the HAI also correlated 

significantly with other measures of hand dysfunction and with the HAQ measure of 

global functional impairment.  This is not unexpected as the hand is especially 

important in performing the activities of daily living as assessed in the HAQ.  Indeed 



we established that the HAI accounts for approximately 25% of the total variance of 

the HAQ score.  The positive correlations of the HAI with hand function and global 

disability together with the lack of correlation of the HAI with age at disease onset 

and with disease duration would be consistent with the HAI having good construct 

validity in scleroderma.  

It is of interest that the severity of the hand deformity in our diffuse scleroderma 

patients (as assessed by the HAI) is of a similar order of magnitude as is found in 

longstanding rheumatoid arthritis.  Highton et al1 quotes a HAI for healthy control 

subjects (of similar gender ratio and age range to our own patients) of 3.76 + 0.6 (SD) 

versus 1.51 + 0.9 in his rheumatoid arthritis patients.  This latter figure is very similar 

to that observed for our diffuse scleroderma patients.  Furthermore we have recently 

determined in a study involving 35 patients with diffuse scleroderma that the global 

functional impairment of these patients is likewise very similar to patients with 

rheumatoid arthritis (mean mHAQ + 95% Cl for diffuse scleroderma = 0.82 (0.55-

1.08) as compared with 1.03 (0.88-1.21) for 170 rheumatoid arthritis patients, 

unpublished observations).  

There are a number of publications assessing hand function in RA, OA and 

Scleroderma 7-11  both of a quantitative nature (i.e.range of motion, grip strength, 

dexterity ) and of a qualitative nature (i.e. pain, self-efficacy) and many  have been 

validated.  Recently the Cochin hand function scale CHFS (an 18 point questionnaire) 

has been shown to have favourable construct validity in scleroderma6 with the CHFS 

total score explaining 75% of the HAQ global score variance (as assessed by 

ANOVA). We are now proceeding to compare the HAI with the CHFS. It would seem 

most efficient to have one qualitative assessment (eg CHFS) and one quantitative 

assessment (eg HAI) to comprehensively assess hand function in scleroderma, for the 



purpose of sequential monitoring. However in both these measures further research 

will be necessary to assess the sensitivity to change over time.  

In conclusion measurement of the HAI in patients with scleroderma reliably reflects 

hand deformity/functional impairment and might provide a valuable outcome measure 

in this disabling rheumatic disorder.  

ACKOWLEDGEMENTS 

We thank Mrs C. Thomas for typing the manuscript, Mr P Hakendorf for providing 

expert statistical assistance and the scleroderma patients for their willing cooperation. 



TABLE 1 

CHARTERISTICS OF PATIENTS WITH SCLERODERMA  

 

  No   Gender            Mean Age   Mean Disease          Serology  
         Male:Female   years (range)   Duration (range)     (antibody)  

12 4:8 50.3 (39-68) 10.8 (2-18) Scl-70 = 3 Diffuse 
Limited 18 2:16 64.5 (36-84) 23.6 (4-64) centromere = 7 
 
   



 

TABLE II  

 

CORRELATION OF HAND ANATOMIC INDEX WITH OTHER HAND 

FUNCTIONAL INDICES AND DISEASE CHARACTERISTICS 

            
HAQ HAND 

STRENGTH 
(av) 

HAND 
GRIPABILITY  

AGE AT 
ONSET 

DISEASE 
DURATION  

r=-0.46  
 

r=0.51 r=-0.37 r=0.20 r=-0.16 

 
 
 
Hand 
anatomical  
Index (av) p=0.01+ p=0.0001 p=0.05 p=NS p=NS 
 

 correlation coefficient (Spearman) 

p+ = p value.  NS – not significant  



REFERENCES 

1. Highton J, Solomon C, Gardiner DM and Doyle TCA. Video Image Analysis 

of Hands: Development of an ‘anatomic index’ as a potential outcome 

measure in rheumatoid arthritis. British Journal of Rheumatology 

1996;35:1274-1280. 

2. Roberts-Thomson PJ, Jones, M, Hakendorf P, Kencana Dharmapatni AASS, 

Walker JG, MacFarlane JG, Smith MD and Ahern MJ. Scleroderma in South 

Australia: epidemiological observations of possible pathogenic significance. 

Internal Medicine Journal 2001; 31:220-229.  

3. LeRoy EC, Black C, Fleischmajer R . Editorial.Scleroderma: 

classification, subset and pathogenesis.  J Rheumatol 1988; 15:202-5.  

4. Pincus T, Callahan LF, Brooks RH, Fuchs HA, Olsen NJ, Kaye JJ.  Self-report 

questionnaire scores in rheumatoid arthritis compared with traditional 

physical, radiographic, and laboratory measures. Ann Intern Med 1989; 

110:259-66.  

5. Fess, EE.  Hand Rehabilitation in H.L. Hopkins and H.D. Smith (eds) Williard 

and Spachman’s Occupational Therapy (8th edn) pp 674-690, Philadelphia, 

J.B. Lippincott, 1993. 

6. Dellhag B, Bjelle A.  A grip ability test for use in rheumatology practice.  J 

Rheumatol 1995;22:1559-65.  

7. Rannou FP, Poiraudeau S, Guillevin L, Reevl M, Fermanian J, Mouthon L. 

Construct Validity of the Cochin Hand Function Scale in Systemic Sclerosis.  

Arth Rheumo atls:1054, 2004.  

8. Brower LM, Poole JL, Reliability and Validity of the Duruöz Hand Index in 

Persons with Systemic Sclerosis (Scleroderma).  Arthritis & Rheumatism 

Vol.51, No.5 October 15,2004, pp805-809.  



9. Wolfe, F, Michaud, K, Gefellar, O and Chi, HK. June 2003, Predicting 

mortality in patient with rheumatoid arthritis.  Arthritis & Rheumatism, Vol 

48, No. 6, pp 1530-1542. 

10. Smyth, AZ, MacGregor, AJ, Mukerjee, D, Brough, GM, Black, CM and 

Denton, CP. 2003, A cross section comparison of three self reported functional 

indices in scleroderma. Rheumatology, Vol 42:732-738. 

11. Hawley, DJ and Wolfe, F. 1992. “Sensitivity to change of the Health 

Assessment Questionnaire (HAQ) and other Clinical and  Health Status 

Measures in Rheumatoid Arthritis. Results of short term clinical trials and 

observational studies versus long-term observational studies”. Arthritis Care 

and Research Vol 5, No.3, Sept. 130-136. 

 



LEGEND TO FIGURES 

Figure 1 

Hand deformity as graded by 2 senior rheumatologists into 4 grades (x abscissa) and 

plotted against the HAI (y ordinate).  Each point represent a patient and the horizontal 

bars represent the means for the 4 catagories. (n=29 patients only). 

Figure 2 

Box and wisker demonstration of HAI (m) between patients with diffuse cutaneous 

scleroderma (n=12) and limited cutaneous scleroderma (n=18) p=0.005.  The box 

demonstrates the mean and 25th  and 75th  percentile while the wisker indicate the 5th 

and 95th percentile. 

Figure 3 

Correlation between HAI (m) and HAQ.  Spearman r=-0.46, p=0.01.  

Figure 4 

Correlation between HAI (m) and hand strength. Spearman r=0.51, n=0.0001. 

Figure 5 

Correlation between HAI (m) and hand prehensile gripability. Spearman r= -0.37, 

p=0.05. 



Conflict of Interest Statement 

No conflict of interest has been declared by the authors.  



Key Messages: 

 The hand anatomic index (HAI) (open hand span minus closed hand 

span/lateral height of hand) is a simple, reliable and quantitative measure of 

hand deformity. 

 The HAI determined in 30 patients with scleroderma clearly distinguished 

patients with increasing hand deformity and correlated significantly with 

measures of hand strength (p=0.0001), prehensile gripability (p=0.05) and 

global functional impairment (as measured by the Health Assessment 

questionnaire p=0.01). 

 Measurement of the HAI in scleroderma (and in rheumatoid arthritis) is a 

reliable and objective measure of hand deformity and functional impairment 

and might provide a useful clinical outcome measure.  Its sensitivity to change 

over time needs to be determined.