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Open AcceCase report
Federico di Montefeltro's hyperkyphosis: a visual-historical case 
report
Anthony V D'Antoni*1 and Stephanie L Terzulli2

Address: 1Department of Anatomy, Touro College of Osteopathic Medicine, 230 West 125th Street, New York, NY 10027, USA and 2Department 
of Clinical Immunology, Memorial Sloan-Kettering Cancer Center, 1275 York Avenue, New York, NY 10021, USA

Email: Anthony V D'Antoni* - anthony.dantoni@touro.edu; Stephanie L Terzulli - terzuls1@mskcc.org

* Corresponding author    

Abstract
Introduction: The literature contains several publications describing the use of visual arts to
develop observational skills in medical students. Portraits of individuals of the Italian Renaissance
can be used to enhance these skills and stimulate the development of differential diagnoses in
medical students. The Duke of Urbino, Federico di Montefeltro (1422–1482), lost his right eye and
nasal bridge during a jousting accident in 1450. Consequently, almost every profile of him in
existence today depicts his face in a left lateral view. Although some authors have described the
Duke's missing nasal bridge, none have described his prominent thoracic hyperkyphosis, which is
clearly discernible in two paintings by Piero della Francesca. The purpose of this report is to
describe the Duke's hyperkyphosis, develop relevant differential diagnoses, and suggest a possible
etiology of the convexity.

Case presentation: We have examined two paintings of the Duke by Piero della Francesca – the
diptych, The Duke and Duchess of Urbino (1465), and the Madonna of the Egg (1472). A MEDLINE
search revealed 2 articles that were relevant to this study. This search was complemented by a
search of the collection at the library of Seton Hall University, and the first author's experience
studying at the University of Urbino. The historical data obtained from these searches were
incorporated with the visual analysis to formulate a plausible etiology of the Duke's thoracic
hyperkyphosis.

Conclusion: Differential diagnoses of the Duke's thoracic hyperkyphosis include Scheuermann
disease, osteoporosis, and trauma-related spinal changes. Based on the available evidence, the
Duke's thoracic hyperkyphosis could have been caused by repetitive trauma to the spine due to
numerous hours on horseback with heavy armor. The role that osteoporosis played in the
development of the hyperkyphosis is unclear, as is whether the Duke had the convexity during
childhood. The hyperkyphosis as a stylistic variant by Piero della Francesca is unlikely. This report
is an example of a teaching strategy that can be used to enhance the observational skills of medical
students in evidence-based medical education.

Published: 21 January 2008

Journal of Medical Case Reports 2008, 2:11 doi:10.1186/1752-1947-2-11

Received: 23 May 2007
Accepted: 21 January 2008

This article is available from: http://www.jmedicalcasereports.com/content/2/1/11

© 2008 D'Antoni and Terzulli; licensee BioMed Central Ltd. 
This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/2.0), 
which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
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Introduction
There are several publications in the medical literature
that describe how the visual arts can be used to teach med-
ical students clinical observational skills [1-4]. Physicians
use observational skills during the history and physical
examination of patients. The information gained from
these observations enable physicians to identify subsets of
the population with high prevalence of disease, which
increases the predictive value of the tests used to confirm
the diagnosis. Developing observational skills in medical
students should be introduced early in medical education
since it is an important component of evidence-based
medicine.

Federico di Montefeltro (1422–1482), a renowned histor-
ical figure of the Italian Renaissance, was the Duke of
Urbino, a small town in northeast Italy located in the
mountainous region called the Apennines. Federico was a
professional soldier for hire – an occupation at which he
excelled and was quite prosperous – as well as a statesman
and connoisseur of the humanities ("mecenate" in Ital-
ian). In 1450, he lost his right eye and bridge of his nose
during a jousting accident [5], and consequently, almost
every profile of him in existence today depicts him in a left
lateral view so that the right side of his face cannot be
observed.

We have examined two paintings of the Duke by Piero
della Francesca – the diptych, The Duke and Duchess of
Urbino (1465) at the Uffizi Gallery in Florence, Italy, and
the Madonna of the Egg (1472) at the Pinacoteca of the
Brera Academy in Milan, Italy. Although several authors
have described the Duke's missing nasal bridge [5-7],
none have described his prominent thoracic hyperkypho-
sis, which is clearly discernible in both paintings.

A MEDLINE search for English language articles published
between 1960 and 2006 was performed using the non-
MeSH term Montefeltro. A total of five articles were
retrieved, and two were retained for this study (references
[5] and [7]) because of their applicability to the subject.
The MEDLINE search was complemented by a traditional
literature search of the collection at the library of Seton
Hall University (South Orange, NJ, USA), as well as the
first author's experience studying at the University of
Urbino in the summer of 1998. Finally, a visual analysis
of the paintings was performed, and this information was
incorporated with the historical data obtained from the
literature searches.

Case presentation
In The Duke and Duchess of Urbino, the 43-year-old Duke is
depicted in a left lateral view facing his wife, Battista
Sforza, who is opposite him and depicted in a right lateral
view (Figure 1). The head, neck, and thorax of both figures

can be clearly observed in the painting. Close inspection
of the Duke reveals a prominent hyperkyphosis of the tho-
racic spine with the apex of the convexity at approximately
the level of the T6–7 vertebrae. Interestingly, there is no
such deformity present in his wife. The panels of the dip-
tych were intended to hang side by side so that the land-
scape in the background is contiguous.

In the Madonna of the Egg, the 50-year-old Duke is shown
genuflecting in the right lower quadrant of the painting,
and again, he is depicted in a left lateral view (Figure 2).
Here the Duke is wearing a suit of armor and his thoracic
hyperkyphosis is again present at the same vertebral levels
as in the previous painting. It seems as though his custom-
made armor was crafted to accommodate this hyperky-
phosis.

Based upon this visual analysis, the convexity portrayed in
these paintings could be attributed to Scheuermann dis-
ease, osteoporosis, or trauma-related spinal changes. A
stylistic variant technique by Piero della Francesca is also
possible. Because the paintings were created by the same
artist and depict the Duke's hyperkyphosis in both plain
clothes and armor, a stylistic variant seems unlikely. A
comparison of the thoracic spines of the Duke and his

The Duke and Duchess of Urbino (1465) by Piero della Franc-esca. Uffizi Gallery, Florence, ItalyFigure 1
The Duke and Duchess of Urbino (1465) by Piero della 
Francesca. Uffizi Gallery, Florence, Italy. The left panel 
is a portrait of Battista Sforza in a right lateral view. She faces 
her husband, Federico di Montefeltro, who is depicted in a 
left lateral view. The Duke was 43 years old when this dip-
tych was painted. Notice the missing nasal bridge [5], moles 
on the cheek, and the skin folds on his jaw due to a facial skin 
disease that he had as a young man [13]. In addition, observe 
his prominent thoracic hyperkyphosis with the apex of the 
convexity roughly at the level of the T6–7 vertebrae. Battista, 
in contrast, does not have this anomaly. (Reproduced with 
permission from the Uffizi Gallery, Florence.)
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Journal of Medical Case Reports 2008, 2:11 http://www.jmedicalcasereports.com/content/2/1/11
wife in Figure 1 reveals, quite convincingly, that the Duke
had the convexity but his wife did not.

Other representations of the Duke by different artists in
which he is depicted in perfect lateral view also reveal the
hyperkyphosis. For example, the medal by Sperandio of
Mantua depicts the Duke in left lateral view and clearly

illustrates the convexity at the same vertebral level as that
portrayed in the paintings by Piero della Francesca. The
medal by Pauli de Ragusio (National Museum of Ireland,
Dublin) also depicts the Duke in left lateral view with the
convexity visible [7]. Close inspection of the Duke's neck
in this medal reveals a posteroinferior slope at 45° that is
interrupted by a bump, which represents the superior
bend of the hyperkyphosis. A portrait of the Duke by an
unknown painter, displayed in the Museo Civico di Urba-
nia (Urbino, Italy), also reveals the Duke's convexity in
left lateral view [5]. The portrait of the Duke with his son
Guidobaldo by Pedro Berruguete, displayed in the Galle-
ria Nazionale delle Marche di Urbino (Urbino, Italy),
does not depict the Duke in perfect lateral view. Instead,
the Duke is seen at a slightly oblique angle so that his left
shoulder obscures the back, making examination of the
hyperkyphosis difficult. However, the convexity is sug-
gested because the contour of the neck slopes posteroinfe-
riorly like that depicted in Ragusio's medal. Finally, in the
painting by Joos van Ghent, the Communion of the Apostles
(Galleria Nazionale delle Marche di Urbino), the Duke is
seen on the right in the background. Again, his shoulders
are oblique and the cloth draped over his left shoulder
hides the hyperkyphosis. However, his face is shown in
left lateral view and the slope of his posterior neck line is
similar to that seen in other paintings.

Scheuermann disease is characterized by a hyperkyphosis
of the thoracic spine that most often occurs in children
aged 13 to 16. All existing portraits of the Duke depict him
in adulthood so a comparison of his thoracic spine in
childhood is not possible. Therefore, one cannot rule out
the possibility of a persistent hyperkyphosis that began in
childhood as a result of Scheuermann disease.

The palace of Urbino contained enough stables to accom-
modate 300 horses [8] and horses were the main mode of
transportation at the time. As previously mentioned, war
was the Duke's professional occupation and he was first
sent to battle at the age of 15. Thus, it is plausible to
assume that the Duke spent many hours on horseback,
with and without armor, throughout his lifetime. The
armor was heavy and the plates protecting the thorax were
suspended by shoulder straps. This weight could certainly
have influenced the curvature of the spine.

Recently, Orloff and Rapp [9] studied the effects of a 9-kg
backpack on spinal curvature in healthy subjects and
found significant changes in curvature as they fatigued.
Other researchers have also found significant changes in
posture and spinal curvature as a result of wearing back-
packs [10,11]. The axial loads transmitted through the
Duke's spine while on horseback [12], coupled with the
weight of armor, could possibly have resulted in compres-
sion fractures of the vertebral bodies, resulting in the

Madonna of the Egg (1472) by Piero della Francesca. Pinaco-teca of the Brera Academy, Milan, ItalyFigure 2
Madonna of the Egg (1472) by Piero della Francesca. 
Pinacoteca of the Brera Academy, Milan, Italy. In this 
painting, the 50-year-old Duke is genuflecting and is again 
depicted in a left lateral view. Observation of the neck mov-
ing posteroinferiorly demonstrates the transition between 
skin and armor. The contour of the silver-colored armor is 
convex and quite striking, especially when viewed against the 
red cloak of the figure behind the Duke. What confounds 
this area is the Duke's red and gold damask cape that hangs 
down his back. However, the intersection of the armor and 
the cape reveals the prominent inferior bend of the thoracic 
hyperkyphosis, which is present at the same vertebral levels 
as in Figure 1. Apparently, his custom-made armor was 
crafted to accommodate his hyperkyphosis. (Reproduced 
with permission from the Pinacoteca of the Brera Academy, 
Milan.)
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development of the hyperkyphosis. By the time he was an
adult, the Duke's marked hyperkyphosis was present as
illustrated in Figures 1 and 2. Whether the Duke had oste-
oporosis is unknown, but this could also be responsible
for the hyperkyphosis.

Conclusion
Based on the available evidence, the Duke's thoracic
hyperkyphosis as depicted in two paintings by Piero della
Francesca was probably not a stylistic variant by the artist.
Possible etiologies include osteoporosis and repetitive
trauma to the spine due to numerous hours on horseback
with heavy armor. Whether the Duke had the anomaly
during childhood is unclear.

This report illustrates how the visual arts can be used to
facilitate the development of observation, an important
skill for future physicians. These paintings could be pre-
sented to medical students to enhance their observational
skills in an evidence-based medical education program.

Competing interests
The author(s) declare that they have no competing inter-
ests.

Authors' contributions
AVD designed the conceptual framework of the study and
performed the literature searches. SLT was involved in the
organization and preparation of the manuscript. Both
authors read and approved the final manuscript.

Acknowledgements
We graciously thank A B Ockerse, MD for reviewing the manuscript and 
providing expert opinion regarding its content.

References
1. Bardes CL, Gillers D, Herman AE: Learning to look: developing

clinical observational skills at an art museum.  Med Educ 2001,
35(12):1157-1161.

2. Boisaubin EV, Winkler MG: Seeing patients and life contexts:
the visual arts in medical education.  Am J Med Sci 2000,
319(5):292-296.

3. Dolev JC, Friedlaender LK, Braverman IM: Use of fine art to
enhance visual diagnostic skills.  Jama 2001, 286(9):1020.

4. Lazarus PA, Rosslyn FM: The arts in medicine: setting up and
evaluating a new special study module at Leicester Warwick
Medical School.  Med Educ 2003, 37(6):553-559.

5. Santoni-Rugiu P, Massei A: The legend and the truth about the
nose of Federico, Duke of Urbino.  Br J Plast Surg 1982,
35(3):251-257.

6. de La Sizeranne R: Federico di Montefeltro: capitano, principe,
mecenate (1422-1482).  Urbino , Argalià Editore; 1972. 

7. Winters HPJ: Federico da Montefeltro, duke of Urbino (1422-
1482): the story of his missing nasal bridge.  Br J Plast Surg 1982,
35(3):247-250.

8. Prescott O: Princes of the renaissance.  New York , Random
House; 1969. 

9. Orloff HA, Rapp CM: The effects of load carriage on spinal cur-
vature and posture.  Spine 2004, 29(12):1325-1329.

10. Korovessis P, Koureas G, Papazisis Z: Correlation between back-
pack weight and way of carrying, sagittal and frontal spinal
curvatures, athletic activity, and dorsal and low back pain in

schoolchildren and adolescents.  J Spinal Disord Tech 2004,
17(1):33-40.

11. Korovessis P, Koureas G, Zacharatos S, Papazisis Z: Backpacks,
back pain, sagittal spinal curves and trunk alignment in ado-
lescents: a logistic and multinomial logistic analysis.  Spine
2005, 30(2):247-255.

12. Palanichamy MS, Patil MK, Ghista DN: Minimization of the verti-
cal vibrations sustained by a tractor operator, by provision of
a standard-type tractor seat suspension.  Ann Biomed Eng 1978,
6(2):138-153.

13. Lightbown R: Piero della Francesca.  New York , Abbeville Press;
1992. 
Page 4 of 4
(page number not for citation purposes)

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	Abstract
	Introduction
	Case presentation
	Conclusion

	Introduction
	Case presentation
	Conclusion
	Competing interests
	Authors' contributions
	Acknowledgements
	References