Structural Changes in the Forefoot of Individuals with Diabetes and a Prior Plantar Ulcer

Background: Plantar ulcers produced by diabetic foot disease are devastating and costly. Better understanding of the ulcer-producing process is important to improve detection of feet that are at risk and to improve intervention. We identified and quantified soft-tissue and osseous structural changes in the forefoot of diabetic patients with a prior plantar ulcer.Methods: Thirty-two individuals with a mean age (and standard deviation) of 57 ± 11 years were studied; sixteen had diabetes (of a mean of 20 ± 11 years' duration), peripheral neuropathy, and a prior plantar ulcer, and sixteen were matched controls. Computed tomography was used to evaluate forefoot structure, including the plantar soft-tissue (muscle) density, soft-tissue thickness beneath the metatarsal heads, metatarsophalangeal joint angle, metatarsal bone density, and metatarsophalangeal joint arthropathy.Results: Plantar soft-tissue (muscle) density was lower in the individuals with diabetes (mean, 1 HU [Hounsfield unit]) than it was in the controls (mean, 18 HU). There was no difference in the soft-tissue thickness beneath the metatarsal heads (mean, 10 mm) between the individuals with diabetes and the controls, but the soft-tissue thickness decreased with age. The individuals with diabetes had greater extension deformity of the first, second, and third metatarsophalangeal joints and greater arthropathy of the second, third, and fourth metatarsophalangeal joints. There were no significant differences in metatarsal bone density between the groups.Conclusions: There were significant differences between the forefeet of individuals with diabetes and a previous plantar ulcer and those of controls: plantar muscle density was decreased, and metatarsophalangeal joint extension and arthropathy were increased. Interestingly, the soft-tissue thickness under the metatarsal heads in the controls was not greater than that in the diabetic patients.Clinical Relevance: This study demonstrated structural differences between the forefeet of patients with diabetes and a previous ulcer and those of normal age-matched controls. The information can serve to guide new interventions to prevent or treat foot ulcerations in this patient population.

[1]  M. Harris,et al.  Diabetes in America: Epidemiology and Scope of the Problem , 1998, Diabetes Care.

[2]  M. Boxer Osteoarthritis involving the metatarsophalangeal joints and management of metatarsophalangeal joint pain via injection therapy. , 1994, Clinics in podiatric medicine and surgery.

[3]  J Larsson,et al.  Long-Term Costs for Foot Ulcers in Diabetic Patients in a Multidisciplinary Setting , 1995, Foot & ankle international.

[4]  E. Weledji,et al.  The Diabetic Foot , 2015 .

[5]  D. Armstrong,et al.  Elevated Peak Plantar Pressures in Patients Who Have Charcot Arthropathy* , 1998, The Journal of bone and joint surgery. American volume.

[6]  M. Coughlin Subluxation and dislocation of the second metatarsophalangeal joint. , 1989, The Orthopedic clinics of North America.

[7]  V. Nguyen The radiologic spectrum of abnormalities of the foot in diabetic patients. , 1992, Canadian Association of Radiologists journal = Journal l'Association canadienne des radiologistes.

[8]  L. Masotti,et al.  Three-dimensional imaging. , 1993, Clinics in diagnostic ultrasound.

[9]  G. Borkan,et al.  Age changes in body composition revealed by computed tomography. , 1983, Journal of gerontology.

[10]  C. Grunfeld,et al.  Prevalence of foot pathology and lower extremity complications in a diabetic outpatient clinic. , 1989, Journal of rehabilitation research and development.

[11]  A. Veves,et al.  Role of Neuropathy and High Foot Pressures in Diabetic Foot Ulceration , 1998, Diabetes Care.

[12]  Leanne L. Seeger,et al.  Imaging the diabetic foot , 1995, Skeletal Radiology.

[13]  P. Fortin,et al.  Second Metatarsophalangeal Joint Instability , 1995, Foot & ankle international.

[14]  A F Mak,et al.  Biomechanical assessment of plantar foot tissue in diabetic patients using an ultrasound indentation system. , 2000, Ultrasound in medicine & biology.

[15]  J. Baynes,et al.  Role of oxidative stress in diabetic complications: a new perspective on an old paradigm. , 1999, Diabetes.

[16]  G. Reiber,et al.  Pathways to Diabetic Limb Amputation: Basis for Prevention , 1990, Diabetes Care.

[17]  P K Commean,et al.  Assessment of the diabetic foot using spiral computed tomography imaging and plantar pressure measurements: a technical report. , 2000, Journal of rehabilitation research and development.

[18]  P K Commean,et al.  Residual-limb shape change: three-dimensional CT scan measurement and depiction in vivo. , 1996, Radiology.

[19]  S. Imura,et al.  Femoral Deformity in Adults With Developmental Hip Dysplasia , 1996, Clinical orthopaedics and related research.

[20]  P K Commean,et al.  Precision and accuracy of computed tomography foot measurements. , 2001, Archives of physical medicine and rehabilitation.

[21]  K. Flegal,et al.  Prevalence of Diabetes, Impaired Fasting Glucose, and Impaired Glucose Tolerance in U.S. Adults: The Third National Health and Nutrition Examination Survey, 1988–1994 , 1998, Diabetes Care.

[22]  L P Le Quesne,et al.  The aetiology of diabetic neuropathic ulceration of the foot , 1985, The British journal of surgery.

[23]  B. Goodpaster,et al.  Composition of Skeletal Muscle Evaluated with Computed Tomography , 2000, Annals of the New York Academy of Sciences.

[24]  I. Shannon,et al.  A clinical report. Water-free stannous-fluoride gel and post-irradiation caries. , 1972, Journal of public health dentistry.

[25]  P. Helm,et al.  Recurrence of neuropathic ulceration following healing in a total contact cast. , 1991, Archives of physical medicine and rehabilitation.

[26]  H. K. Huang,et al.  The evaluation of mass densities of the human body in vivi from CT Scans , 1976 .

[27]  R. G. Paul,et al.  Mechanisms of maturation and ageing of collagen , 1998, Mechanisms of Ageing and Development.

[28]  R. Cofield,et al.  Diabetic Neuroarthropathy in the Foot: Patient Characteristics and Patterns of Radiographic Change , 1983, Foot & ankle.

[29]  J. Adams,et al.  Radiographic Abnormalities in the Feet of Patients With Diabetic Neuropathy , 1994, Diabetes Care.

[30]  G. Reiber,et al.  Lower extremity foot ulcers and amputations in diabetes , 1995 .

[31]  M. Engelgau,et al.  Diabetes trends in the U.S.: 1990-1998. , 2000, Diabetes care.

[32]  E. Morag,et al.  The relationship of static foot structure to dynamic foot function. , 1997, Journal of biomechanics.

[33]  D. R. White,et al.  Tissue substitutes in experimental radiation physics. , 1978, Medical physics.

[34]  B. Sumpio Primary care: Foot ulcers , 2000 .

[35]  C I Franks,et al.  Abnormalities of Foot Pressure in Early Diabetic Neuropathy , 1987, Diabetic medicine : a journal of the British Diabetic Association.

[36]  M. Dhanendran,et al.  Vertical forces acting on the feet of diabetic patients with neuropathic ulceration , 1981, The British journal of surgery.

[37]  R. Peshock,et al.  Denervated human skeletal muscle: MR imaging evaluation. , 1993, Radiology.

[38]  S. Majumdar,et al.  Noninvasive assessment of bone mineral and structure: State of the art , 1996, Journal of bone and mineral research : the official journal of the American Society for Bone and Mineral Research.

[39]  R. Bucala,et al.  Pathogenic effects of advanced glycosylation: biochemical, biologic, and clinical implications for diabetes and aging. , 1994, Laboratory investigation; a journal of technical methods and pathology.

[40]  M. Warren,et al.  Bone density is compromised in amenorrheic women despite return of menses: a 2-year study. , 1993, Obstetrics and gynecology.

[41]  C van Kuijk,et al.  Influence of calibration materials in single- and dual-energy quantitative CT. , 1992, Radiology.

[42]  M. Carroll,et al.  Overweight and obesity in the United States: prevalence and trends, 1960–1994 , 1998, International Journal of Obesity.

[43]  D. Armstrong,et al.  Off-loading the diabetic foot wound: a randomized clinical trial. , 2001, Diabetes care.

[44]  P Sinnock,et al.  The Epidemiology of Lower Extremity Amputations in Diabetic Individuals , 1983, Diabetes Care.

[45]  N. Ray,et al.  Economic Consequences of Diabetes Mellitus in the U.S. in 1997 , 1998, Diabetes Care.

[46]  M. Ellenberg,et al.  Diabetes mellitus: theory and practice , 1970 .

[47]  Use of an in-shoe pressure measurement system in the management of patients with neuropathic ulcers or metatarsalgia. , 1995, The Journal of orthopaedic and sports physical therapy.

[48]  M. Myerson,et al.  The pathological anatomy of claw and hammer toes. , 1989, The Journal of bone and joint surgery. American volume.

[49]  C. Muehleman,et al.  A densitometric analysis of the human first metatarsal bone , 1999, Journal of anatomy.

[50]  C. Agardh,et al.  Long‐term prognosis for diabetic patients with foot ulcers , 1993, Journal of internal medicine.

[51]  S. Rose,et al.  Diabetic plantar ulcers treated by total contact casting. A clinical report. , 1987, Physical therapy.

[52]  D. Sartoris Cross-sectional imaging of the diabetic foot. , 1994, The Journal of foot and ankle surgery : official publication of the American College of Foot and Ankle Surgeons.

[53]  E. Trepman,et al.  Guidelines for Diabetic Foot Care , 1999 .

[54]  S. Morikawa,et al.  1H- and 31P-magnetic resonance spectroscopy and imaging as a new diagnostic tool to evaluate neuropathic foot ulcers in Type II diabetic patients , 2000, Diabetologia.

[55]  D D Robertson,et al.  Three-Dimensional Analysis of the Proximal Part of the Humerus: Relevance to Arthroplasty* , 2000, The Journal of bone and joint surgery. American volume.

[56]  D D Robertson,et al.  Quantitative bone measurements using x-ray computed tomography with second-order correction. , 1986, Medical physics.

[57]  S B Heymsfield,et al.  Cadaver validation of skeletal muscle measurement by magnetic resonance imaging and computerized tomography. , 1998, Journal of applied physiology.

[58]  E. Boyko,et al.  Prevalence of Radiographic Foot Abnormalities in Patients with Diabetes , 1997, Foot & ankle international.

[59]  J F Baumhauer,et al.  Hallux rigidus and osteoarthrosis of the first metatarsophalangeal joint. , 1998, The Journal of bone and joint surgery. American volume.

[60]  T. Einhorn,et al.  Current Concepts Review - Bone Densitometry in Orthopaedic Practice* , 1998 .

[61]  W Vennart,et al.  Magnetic resonance imaging techniques demonstrate soft tissue damage in the diabetic foot , 1999, Diabetic medicine : a journal of the British Diabetic Association.

[62]  R A Brooks,et al.  On the relationship between computed tomography numbers and specific gravity. , 1981, Physics in medicine and biology.

[63]  D. Sartoris,et al.  Update on imaging of orthopedic infections. , 1998, The Orthopedic clinics of North America.

[64]  J. Iwamoto,et al.  Bone mineral density of metatarsus in hemiplegic subjects. , 1999, American journal of physical medicine & rehabilitation.

[65]  Joseph Klaesner,et al.  Reliability and validity of combined imaging and pressures assessment methods for diabetic feet. , 2002, Archives of physical medicine and rehabilitation.

[66]  E H Wagner,et al.  Incidence, outcomes, and cost of foot ulcers in patients with diabetes. , 1999, Diabetes care.

[67]  J. Skyler,et al.  Diabetes trends in the USA , 2002, Diabetes/metabolism research and reviews.

[68]  H K Huang,et al.  The evaluation of mass densities of human body in vivo from CT scans. , 1976, Computers in biology and medicine.

[69]  F. W. Wagner,et al.  The Dysvascular Foot: A System for Diagnosis and Treatment , 1981, Foot & ankle.