Thermography as a diagnostic tool for early detection of diabetic foot ulceration risk : a review
Date
2019-10-01Authors
Salazar Centeno, Cesar AugustoZequera Díaz, Martha Lucía
Pontificia Universidad Javeriana. Facultad de Ingeniería. Departamento de Ingeniería Electrónica
Publisher
Springer
Type
Capítulo de libro
ISBN
9783030306472 / 9783030306489 (ePub)
COAR
http://purl.org/coar/resource_type/c_2f33Share this record
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VIII Latin American Conference on Biomedical Engineering and XLII National Conference on Biomedical EngineeringResumen
Type 2 Diabetes Mellitus (DM2) is a disease that affects
the following physiological systems: the central nervous system (CNS),
the peripheral nervous system (PNS), the vascular system (VS), and
the peripheral vascular system (PVS). When the PNS and PVS are
affected, those complications are well known as diabetic neuropathy
(DN) and diabetic vasculopathy (DV) respectively. These complications
may cause lesions on the feet such as ulcers and are associated with
other risk factors such as plantar pick pressure, friction from not wearing
ergonomics footwear, the presence of biomechanics foot alterations,
or significant temperature changes on the foot producing tissue infection
that may cause lower limb amputation. The most important physiopathologies
reported on the feet caused by the DN and DV are hypoesthesia
and hyperthermia. These complications cause the loss of sensitivity
and increase in temperature at the plantar surface respectively, and
with continuously applied pressure, may initiate an ischemic or inflammatory
problem. This multicausal condition of DM2 is known as Diabetic
Foot Syndrome (DF), one of the main complications of the disease.
Several studies have reported the correlation between ulcers and high
temperatures under the plantar surface of the foot. Those temperature
changes may be detected by using different methods. According to literary
reviews, thermography is one of the methods most implemented
by different researchers in laboratory environments. This method seems
accurate in detecting temperature changes in the plantar foot anatomical
regions by using image processing techniques, computer vision, and
intelligent systems for improving ulcer detection in early stages of DF.
The aim of this study is to define the benefits of using thermography as
a future diagnostic tool for DF in a clinical environment based on the
systematic literary review done in the last 15 years by BASPI-FootLab
research group. Preliminary results of our review are reported in this
paper.
Keywords
Type 2 Diabetes MellitusDiabetic foot
Image processing techniques
Protocol
Region of interest
Thermography
Site
Cham
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