Neuropathic joint disease: Difference between revisions
No edit summary |
No edit summary |
||
(2 intermediate revisions by 2 users not shown) | |||
Line 1: | Line 1: | ||
__NOTOC__ | |||
{{Infobox_Disease | {{Infobox_Disease | ||
| Name = {{PAGENAME}} | | Name = {{PAGENAME}} | ||
Line 12: | Line 13: | ||
}} | }} | ||
{{SI}} | {{SI}} | ||
{{ | {{CMG}} | ||
{{SK}} Charcot joints; neuropathic arthropathy; neuropathic osteoarthropathy | |||
==Overview== | ==Overview== | ||
'''Neuropathic osteoarthropathy''' refers to progressive degeneration of a weight-bearing [[joint]], a process marked by bony destruction, [[bone resorption]], and eventual [[deformity]]. Onset is usually insidious. It is also known as '''Charcot joint'''. | '''Neuropathic osteoarthropathy''' refers to progressive degeneration of a weight-bearing [[joint]], a process marked by bony destruction, [[bone resorption]], and eventual [[deformity]]. Onset is usually insidious. It is also known as '''Charcot joint'''. | ||
If this pathological process continues unchecked, it could result in joint deformity, [[ulcer]]ation and/or [[superinfection]], loss of function, and in the worst case scenario: [[amputation]]. Early identification of joint changes is the best way to limit morbidity. | If this pathological process continues unchecked, it could result in joint deformity, [[ulcer]]ation and/or [[superinfection]], loss of function, and in the worst case scenario: [[amputation]]. Early identification of joint changes is the best way to limit morbidity. | ||
==Pathophysiology== | |||
*Two primary theories have been advanced: | |||
**''Neurotrauma'': Loss of peripheral sensation and proprioception leads to repetitive [[microtrauma]] to the joint in question; this damage goes unnoticed by the neuropathic patient, and the resultant inflammatory resorption of traumatized bone renders that region weak and susceptible to further trauma. Indeed, it is a [[vicious cycle]]. In addition, poor fine motor control generates unnatural pressure on certain joints, leading to additional microtrauma. | |||
**''Neurovascular'': Neuropathic patients have dysregulated [[autonomic nervous system]] reflexes, and de-sensitized joints receive significantly greater blood flow. The resulting [[hyperemia]] leads to increased osteoclastic resorption of bone, and this, in concert with mechanical stress, leads to bony destruction. | |||
== | In reality, both of these theories probably play a role in the development of a Charcot joint. | ||
==Causes== | |||
Basically, any condition resulting in decreased peripheral sensation, [[proprioception]], and fine [[motor control]]: | Basically, any condition resulting in decreased peripheral sensation, [[proprioception]], and fine [[motor control]]: | ||
*[[Diabetes mellitus]] [[neuropathy]] (the most common in the U.S. today, resulting in destruction of foot and ankle joints), with Charcot joints in 1/600-700 diabetics. Related to long-term poor glucose control. | *[[Diabetes mellitus]] [[neuropathy]] (the most common in the U.S. today, resulting in destruction of foot and ankle joints), with Charcot joints in 1/600-700 diabetics. Related to long-term poor glucose control. | ||
Line 31: | Line 38: | ||
*[[Syringomyelia]] | *[[Syringomyelia]] | ||
*Intra-articular [[steroid]] injections | *Intra-articular [[steroid]] injections | ||
==Differentiating Neuropathic joint disease from other Diseases== | |||
== | Note that it is often difficult to differentiate [[osteomyelitis]] from a Charcot joint, as they may have similar tagged WBC scan and [[MRI]] features (joint destruction, dislocation, edema). Definitive diagnosis may require bone or synovial biopsy. | ||
==Diagnosis== | |||
===History and Symptoms=== | |||
=== | |||
As diabetes is the #1 cause in America today for neuropathic joint disease, the foot is the most affected region. In those with foot deformity, approximately 60% are in the [[TMT]] joint (medial > lateral), 30% MCP joint, and 10% have ankle disease. Over half of diabetic patients with neuropathic joints can recall some kind of precipitating trauma, usually minor. | As diabetes is the #1 cause in America today for neuropathic joint disease, the foot is the most affected region. In those with foot deformity, approximately 60% are in the [[TMT]] joint (medial > lateral), 30% MCP joint, and 10% have ankle disease. Over half of diabetic patients with neuropathic joints can recall some kind of precipitating trauma, usually minor. | ||
Line 46: | Line 48: | ||
Hip joint destruction is also seen in neuropathic patients. | Hip joint destruction is also seen in neuropathic patients. | ||
== | ===Physical Examination=== | ||
[[Erythema]], [[edema]], increased temperature in the affected joint. In neuropathic foot joints, plantar ulcers may be present | [[Erythema]], [[edema]], increased temperature in the affected joint. In neuropathic foot joints, plantar ulcers may be present. | ||
===X Ray=== | |||
== | First, it is important to recognize that two types of abnormality may be detected. One is termed "[[atrophic]]," in which there is [[osteolysis]] of the distal [[metatarsal]]s in the [[forefoot]]. The more common form of destruction is "[[hypertrophic]]" joint disease, characterized by acute peri-articular [[fracture]] and [[joint]] [[dislocation]]. | ||
First, it is important to recognize that two types of abnormality may be detected. One is termed "atrophic," in which there is [[osteolysis]] of the distal | |||
The natural history of the joint destruction process has a classification scheme of its own, offered by Eichenholtz decades ago: | The natural history of the joint destruction process has a classification scheme of its own, offered by Eichenholtz decades ago: | ||
'''Stage 0:''' Clinically, there is joint edema, but radiographs are negative. Note that a bone scan may be positive before a radiograph is, making it a sensitive but not very specific modality. | '''Stage 0:''' Clinically, there is joint [[edema]], but radiographs are negative. Note that a bone scan may be positive before a radiograph is, making it a sensitive but not very specific modality. | ||
'''Stage 1:''' Osseous fragmentation with joint dislocation seen on radiograph ("acute Charcot"). | '''Stage 1:''' [[Osseous]] fragmentation with joint dislocation seen on radiograph ("acute Charcot"). | ||
'''Stage 2:''' Decreased local edema, with coalescence of fragments and absorption of fine bone debris | '''Stage 2:''' Decreased local edema, with coalescence of fragments and absorption of fine bone debris | ||
'''Stage 3:''' No local edema, with consolidation and remodeling (albeit deformed) of fracture fragments. The foot is now stable. | '''Stage 3:''' No local edema, with consolidation and [[remodeling]] (albeit deformed) of fracture fragments. The foot is now stable. | ||
Destroyed TMT joints in the medial left foot, with fracture and dislocation of fragments; these are classic findings. Also note loss of the foot arch and acquired pes planus deformity. | Destroyed TMT joints in the medial left foot, with fracture and dislocation of fragments; these are classic findings. Also note loss of the foot arch and acquired pes planus deformity. | ||
==Treatment== | ==Treatment== | ||
Once the process is recognized, immobilization with a total contact [[cast]] will help ward off further joint destruction. [[Pneumatic]] [[walking braces]] are also used. Surgical correction of a joint is rarely successful in the long-term in these patients. | |||
Once the process is recognized, immobilization with a total contact [[cast]] will help ward off further joint destruction. | |||
It can take 6-9 months for the edema and erythema of the affected joint to recede. | It can take 6-9 months for the edema and erythema of the affected joint to recede. | ||
Line 75: | Line 74: | ||
*Gupta, R. 1993. A short history of neuropathic arthropathy. [http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&list_uids=8222448&dopt=Abstract Clinical Orthopaedics], 296, pp. 43-49. | *Gupta, R. 1993. A short history of neuropathic arthropathy. [http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&list_uids=8222448&dopt=Abstract Clinical Orthopaedics], 296, pp. 43-49. | ||
*Sommer, Todd C., and Lee, Thomas H. Charcot Foot: The Diagnostic Dilemma. [http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&list_uids=11730314&dopt=Abstract American Family Physician. Vol. 64, No. 9, Nov. 1, 2001]. | *Sommer, Todd C., and Lee, Thomas H. Charcot Foot: The Diagnostic Dilemma. [http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&list_uids=11730314&dopt=Abstract American Family Physician. Vol. 64, No. 9, Nov. 1, 2001]. | ||
[[Category:Rheumatology]] | [[Category:Rheumatology]] |
Latest revision as of 20:39, 16 November 2012
Neuropathic joint disease | |
DiseasesDB | 2344 |
---|
Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]
Synonyms and keywords: Charcot joints; neuropathic arthropathy; neuropathic osteoarthropathy
Overview
Neuropathic osteoarthropathy refers to progressive degeneration of a weight-bearing joint, a process marked by bony destruction, bone resorption, and eventual deformity. Onset is usually insidious. It is also known as Charcot joint.
If this pathological process continues unchecked, it could result in joint deformity, ulceration and/or superinfection, loss of function, and in the worst case scenario: amputation. Early identification of joint changes is the best way to limit morbidity.
Pathophysiology
- Two primary theories have been advanced:
- Neurotrauma: Loss of peripheral sensation and proprioception leads to repetitive microtrauma to the joint in question; this damage goes unnoticed by the neuropathic patient, and the resultant inflammatory resorption of traumatized bone renders that region weak and susceptible to further trauma. Indeed, it is a vicious cycle. In addition, poor fine motor control generates unnatural pressure on certain joints, leading to additional microtrauma.
- Neurovascular: Neuropathic patients have dysregulated autonomic nervous system reflexes, and de-sensitized joints receive significantly greater blood flow. The resulting hyperemia leads to increased osteoclastic resorption of bone, and this, in concert with mechanical stress, leads to bony destruction.
In reality, both of these theories probably play a role in the development of a Charcot joint.
Causes
Basically, any condition resulting in decreased peripheral sensation, proprioception, and fine motor control:
- Diabetes mellitus neuropathy (the most common in the U.S. today, resulting in destruction of foot and ankle joints), with Charcot joints in 1/600-700 diabetics. Related to long-term poor glucose control.
- Alcoholic neuropathy
- Cerebral palsy
- Leprosy
- Syphilis (tabes dorsalis), caused by the organism Treponema pallidum
- Congenital insensitivity to pain
- Spinal cord injury
- Myelomeningocele
- Syringomyelia
- Intra-articular steroid injections
Differentiating Neuropathic joint disease from other Diseases
Note that it is often difficult to differentiate osteomyelitis from a Charcot joint, as they may have similar tagged WBC scan and MRI features (joint destruction, dislocation, edema). Definitive diagnosis may require bone or synovial biopsy.
Diagnosis
History and Symptoms
As diabetes is the #1 cause in America today for neuropathic joint disease, the foot is the most affected region. In those with foot deformity, approximately 60% are in the TMT joint (medial > lateral), 30% MCP joint, and 10% have ankle disease. Over half of diabetic patients with neuropathic joints can recall some kind of precipitating trauma, usually minor.
Patients with neurosyphilis tend to have knee involvement, and patients with syringomyelia of the spinal cord may demonstrate shoulder deformity.
Hip joint destruction is also seen in neuropathic patients.
Physical Examination
Erythema, edema, increased temperature in the affected joint. In neuropathic foot joints, plantar ulcers may be present.
X Ray
First, it is important to recognize that two types of abnormality may be detected. One is termed "atrophic," in which there is osteolysis of the distal metatarsals in the forefoot. The more common form of destruction is "hypertrophic" joint disease, characterized by acute peri-articular fracture and joint dislocation.
The natural history of the joint destruction process has a classification scheme of its own, offered by Eichenholtz decades ago:
Stage 0: Clinically, there is joint edema, but radiographs are negative. Note that a bone scan may be positive before a radiograph is, making it a sensitive but not very specific modality.
Stage 1: Osseous fragmentation with joint dislocation seen on radiograph ("acute Charcot").
Stage 2: Decreased local edema, with coalescence of fragments and absorption of fine bone debris
Stage 3: No local edema, with consolidation and remodeling (albeit deformed) of fracture fragments. The foot is now stable.
Destroyed TMT joints in the medial left foot, with fracture and dislocation of fragments; these are classic findings. Also note loss of the foot arch and acquired pes planus deformity.
Treatment
Once the process is recognized, immobilization with a total contact cast will help ward off further joint destruction. Pneumatic walking braces are also used. Surgical correction of a joint is rarely successful in the long-term in these patients.
It can take 6-9 months for the edema and erythema of the affected joint to recede.
References
- Neuropathic osteoarthropathy by Monica Bhargava, M.D., University of Washington Department of Radiology
- Canale: Campbell's Orthopaedics, 10th edition, 2003 Mosby, Inc.
- Gupta, R. 1993. A short history of neuropathic arthropathy. Clinical Orthopaedics, 296, pp. 43-49.
- Sommer, Todd C., and Lee, Thomas H. Charcot Foot: The Diagnostic Dilemma. American Family Physician. Vol. 64, No. 9, Nov. 1, 2001.