Features of retinal arterial macroaneurysms in patients with uveitis
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《英国眼科学杂志》
Department of Ophthalmology, Osaka University Medical School, Osaka, Japan
Correspondence to:
N Ohguro MD
Department of Ophthalmology, Osaka University Medical School E7, 2-2, Yamadaoka, Suita, Osaka, 565-0871, Japan; nohguro@ophthal.med.osaka-u.ac.jp
Accepted for publication 12 November 2003
ABSTRACT
Aim: To determine the frequency and clinical characteristics of retinal arterial macroaneurysms in patients with uveitis.
Methods: A retrospective review of the clinical, photographic, and angiographic records of 1007 patients with uveitis, examined at the Osaka University Hospital uveitis clinic between January 1995 and April 2002, was performed. All of the records were examined to determine whether macroaneurysms were present, and when present, to determine the laterality, type, location, clinical course, and the presence of associated systemic and ocular diseases.
Results: Of the 1007 patients with uveitis, only 14 (1.4%) had macroaneurysms. 12 of these 14 patients had peripheral multifocal chorioretinitis (PMC), and five of these 12 were diagnosed with sarcoidosis and the other seven without sarcoidosis. There was only one case with sarcoidosis without PMC, and the remaining case was uveitis of unknown origin. There were 18 macroaneurysms in all cases and 17 (94.4%) were the exudative type, and the remaining one was the haemorrhagic type. Two patients had been treated for systemic hypertension but the others had no signs of systemic hypertension or cardiovascular disease.
Conclusions: Macroaneurysms are not characteristically found in patients with uveitis, but the majority are found in patients with PMC. The majority of the macroaneurysms were the exudative type, and the conclusion is that patients with PMC should be carefully examined for exudative macroaneurysms.
Abbreviations: BHL, bilateral hilar lymphadenopathy; PMC, peripheral multifocal chorioretinitis
Keywords: exudative macroaneurysms; peripheral multifocal chorioretinitis; retinal arterial macroaneurysms; uveitis
Arterial retinal macroaneurysms are fusiform or round dilations of the retinal arterioles that occur in the posterior fundus within the first three orders of arterial bifurcation.1 The supratemporal artery is the most common site, and the macroaneurysms can result in visual impairment.2 The most common clinical symptom of arterial retinal macroaneurysms is a decline in central visual acuity from the retinal oedema, exudation, and haemorrhages. Some lesions can naturally thrombose and undergo spontaneous involution,3 but others require treatment. Haemorrhage into the retina, subretinal space, or vitreous may require laser treatment or vitrectomy,2 while the exudative process may progress and cause structural damage to the macula requiring laser photocoagulation.
Macroaneurysms have been described in angiomatosis retinae, Eales disease, Leber’s military aneurysms, Coats’ disease,2,4 branch retinal artery occlusion, branch retinal vein occlusion,5 and hypertensive retinopathy.2 Patients with retinal macroaneurysms often have systemic vascular problems such as hypertension and general arteriosclerotic cardiovascular disease.1,2
It has been reported that haemorrhagic macroaneurysms are the major type in patients with hypertension or cardiovascular disease.6 In contrast, exudative macroaneurysms were most frequently associated with retinal vein occlusions.5
Recently, macroaneurysms have been reported in eyes with peripheral multifocal chorioretinitis (PMC),7 one of the white dot syndromes that is characterised by a strong association with sarcoidosis.8 In that study, the authors reported that eight of 48 patients (17%) with PMC had macroaneurysms, and six of these eight were diagnosed as having sarcoidosis.7 Although it has been suggested that macroaneurysms may be a complication of an inflammatory vascular process in patients with PMC, there is a possibility that a higher incidence of macroaneuryms may be found in patients with uveitis in general.
To determine whether macroaneurysms are frequently found in patients with uveitis in general or is peculiar to PMC, we have retrospectively reviewed the clinical and photographic records of 1007 patients seen in our uveitis service over an approximately 7 year period. We shall show that macroaneuryms were not frequently found in uveitis in general, but were mainly associated with PMC. We also found that the majority of the macroaneurysms in our uveitic patients were the exudative type.
PATIENTS AND METHODS
We reviewed the clinical and photographic records of 1007 patients (average age 40.6 years; range 3–89 years) with uveitis who were seen at the Osaka University Hospital uveitis clinic between January 1995 and April 2002. All patients were examined by NO, SY, or YN, and the clinical and photographic records were reviewed independently by EY and AK after April 2002.
All patients had undergone a standard complete ophthalmologic examination, and 897 patients had fluorescein angiography at least once. Fluorescein angiograms were not only of the macula area but also from as far peripheral as possible. The patients who did not undergo fluorescein angiography were those diagnosed with anterior uveitis, and their fundi were normal by funduscopic examinations.
Macroaneurysms were defined as saccular or fusiform dilations of the retinal arterioles located at the bifurcations or arteriovenous crossings measuring 200 μm or more and located within the first three orders of arterial bifurcation.1 We recorded the laterality, type, location, clinical course, and the presence of associated systemic and ocular diseases for all macroaneurysms. The average duration of follow up of all patients was 48 months (range 1–106 months), and that of patients with macroaneurysms was 33.8 months (range 3–96 months).
All patients had undergone standard laboratory screening tests to evaluate the possible cause of the uveitis. Patients diagnosed with PMC fulfilled all of the following criteria; (1) presence of multiple (>10), small, round, punched out lesions in the peripheral retina, (2) absence of central chorioretinal lesions, and (3) presence of associated intraocular inflammatory reactions.8
Sarcoidosis uveitis was diagnosed when ocular inflammation was consistent with characteristic ocular manifestations such as iridocyclitis with mutton fat keratic precipitates or iris nodules, periphlebitis, and sarcoid granulomata, in a patient with extraocular findings diagnostic of sarcoidosis.9 For this study, we considered sarcoidosis as biopsy proved when the diagnosis was confirmed by histological examination of a biopsy specimen.10 Cases without biopsy but with hilar adenopathy, a radiological confirmation of sarcoidosis, were classified as possible sarcoidosis.8
All other ocular diseases were diagnosed according to current diagnostic criteria. Systemic diseases were determined by patient report at the initial visit.
RESULTS
Of the 1007 patients, 139 fulfilled the diagnostic criteria for PMC, of which 46 (33.1%) had extraocular findings diagnostic of sarcoidosis. The other 93 cases diagnosed with PMC did not have extraocular findings diagnostic of sarcoidosis. The diagnoses of the entire series are listed in table 1.
Table 1 Diagnosis of uveitis
Of the 1007 patients with uveitis, 68 were diagnosed as having sarcoidosis uveitis; 18 had histologically confirmed sarcoidosis and 50 had radiologically confirmed sarcoidosis (hilar adenopathy). Among the 68, 46 (67.6%) had PMC and 22 (32.3%) did not have PMC.
The average age of patients with sarcoidosis was 47.7 years (range 24–84 years), and that of patients with PMC was 55.3 years (range 29–83 years).
Of the 1007 patients, 14 patients (1.39%; 10 women and four men with an average age of 60.7 years: range 47–82 years) had macroaneurysms; 12 were diagnosed with PMC, one without PMC, and one of uveitis of unknown origin. Of these 12 patients with PMC, five were also diagnosed with sarcoidosis and the other seven without sarcoidosis. The clinical characteristics of patients with macroaneurysms are presented in table 2.
Table 2 Clinical characteristics of patients with macroaneurysms
The macroaneurysms were unilateral in 12 patients and bilateral in two patients for a total of 16 eyes with macroaneurysms. One eye had three macroaneurysms while the other eyes had one for a total of 18 macroaneuryms. All but one (17 of 18, 94.4%) were exudative macroaneurysms, and the remaining one was a haemorrhagic type. Seven of the macroaneurysms were in the superotemporal artery, five in the macular artery, three in the inferotemporal artery, two in the inferonasal artery, and one in the superonasal artery. Five macroaneurysms were symptomatic and caused visual loss. Spontaneous regression occurred in 10 macroaneurysms, while in seven exudative macroaneurysms lipid exudates from the macroaneurysms threatened the fovea and laser photocoagulation was performed. The typical appearance of a retinal arterial macroaneurysm in a case of PMC with sarcoidosis uveitis is shown in figure 1.
Figure 1 (A) Fundus appearance of case 1. Severe macular oedema with lipid exudates can be seen in the right eye. (B) Fluorescein angiogram clearly shows the existence of a retinal macroaneurysm as a round dilation located at the arteriolar bifurcation of the right eye.
Among the 14 patients with macroaneurysms, two patients had been treated for systemic hypertension but none had other cardiovascular diseases. Others had no signs of systemic hypertension or cardiovascular disease.
DISCUSSION
Our results confirmed the high association of macroaneurysms with PMC (12 of 14 cases), and this high incidence was not seen in uveitis in general. We also found a significant association between PMC and sarcoidosis as previously reported.8
Interestingly, all but one macroaneurysm (17 of 18) was the exudative type. The largest study of arterial macroaneurysms consisted of 40 patients, and the authors reported that haemorrhagic macroaneurysms were the major type, and hypertension and systemic vascular disease were prominent features.6 In contrast, all but one of the macroaneurysms in our patients were the exudative type. This particularly high incidence of exudative macroaneurysms is a definitive characteristic of macroaneurysms in patients with PMC.
The high systolic blood pressures in patients with haemorrhagic macroaneurysms may have led to the vascular haemorrhages11,12 because of the increased transmural tension and greater pulsation amplitude. In comparison, the vascular damage due to inflammations and chronic vasculopathy may have led to the formation of macroaneurysm in the PMC cases, and a leakage through weak vascular walls may have contributed to the exudative process.7 However, the very high incidence of exudative macroaneurysms in cases of PMC, and not in uveitis in general, needs further explanation.
Previous studies have shown that retinal branch vein occlusions were frequently associated with macroaneurysms, and they were commonly associated with non-haemorrhagic macroaneurysms.5,6 As in sarcoidosis uveitis, PMC is also frequently associated with vasculitis, and more specifically, periphlebitis.7,8 While periphlebitis usually does not induce significant vascular occlusions, it occasionally causes occlusive retinal vascular disease,9 which may contribute to the macroaneurysm formation. A better understanding of the development of retinal macroaneurysms in PMC will require a more intensive observation, especially in relation to the region and the severity of inflammation including periphlebitis and the location of the macroaneurysm during the clinical course of PMC.
Although the exact incidence of retinal macroaneurysms in cases of systemic hypertension or cardiovascular disease has not been reported, more than 60% of patients with macroaneurysms have been reported to have hypertension.1,6,13–15 Of our 14 uveitic patients with macroaneuryms, only two patients (14.3%) had been treated for systemic hypertension and the others had no signs of systemic hypertension or cardiovascular disease. This indicates that PMC itself may have had a role in the formation of the macroaneurysms in our patients. However, not all of our uveitic patients in this study were followed regularly throughout the 7 year period of review, and some macroaneurysms might have spontaneously regressed before the time of a follow up examination. In addition, the presence or absence of systemic hypertension and cardiovascular diseases was determined by patient report and unidentified hypertension and cardiovascular disease could not be ruled out in our study.
We must also consider the ageing process as an important factor in macroaneurysm formation in PMC, because patients with PMC were older than patients with other uveitis. Moreover, because we did not perform fluorescein angiography on patients with anterior uveitis, there was a possibility that we missed some macroaneurysms in these cases. Therefore, a prospective, long term, and precise observation of both the systemic and ophthalmological conditions of a larger number of cases will be necessary to confirm our finding of the high incidence of macroaneurysms in cases of PMC, and not in uveitis in general.
Although the mechanism of macroaneurysm formation in PMC still remains unclear, our observations demonstrated that patients with PMC should be carefully examined for exudative retinal macroaneurysms.
REFERENCES
Robertson DM. Macroaneurysms of the retinal arteries. Trans Am Acad Ophthalmol Otolaryngol 1973;77:55–67.
Chew EY, Murphy RP. Acquired retinal macroaneurysms. In: Schachat AP, ed. Retina. 3rd ed. St Louis: Mosby, 2001:1500–4.
Asdourian GK, Goldberg MF, Jampol L, et al. Retinal macroaneurysms. Arch Ophthalmol 1977;95:624–8.
Nadel AJ, Gupta KK. Macroaneurysms of the retinal arteries. Arch Ophthalmol 1976;94:1092–6.
Cousins SW, Flynn HW Jr, Clarkson JG. Macroaneuryms associated with retinal branch vein occlusion. Am J Ophthalmol 1990;109:567–570.
Lavin MJ, Marsh RJ, Peart S, et al. Retinal arterial macroaneurysms: a retrospective review of 40 patients. Br J Ophthalmol 1987;71:817–25.
Rothova A , Lardenoye C. Arterial macroaneurysms in peripheral multifocal chorioretinitis associated with sarcoidosis. Ophthalmology 1998;105:1393–7.
Lardenoye CWTA, Van der Lelij A, de Loos WS, et al. Peripheral multifocal chorioretinitis: a distinct clinical entity? Ophthalmology 1997;104:1820–6.
Jabs DA, Nguyen QD. Sarcoidosis. In: Schachat AP, ed. Retina. 3rd ed. St Louis: Mosby, 2001:1727–37.
Weinberger SE. Sarcoidosis. In: Goldman L, Bennett JC, eds. Cecil textbook of medicine. 21st ed. Philadelphia: Lea & Febinger, 1996:433–8.
Abdel-Khalek MN, Richardson J. Retinal macroaneurysm: natural history and guidelines for treatment. Br J Ophthalmol 1986;70:2–11.
Fichte C , Streeten BW, Friedman AH. A histopathologic study of retinal arterial aneurysms. Am J Ophthalmol 1978;85:509–18.
Cleary PE, Kohner EM, Hamilton AM, et al. Retinal macroaneurysms. Br J Ophthalmol 1975;59:355–61.
Lewis RA, Norton EWD, Gass JDM. Acquired arterial macroaneuryms of the retina. Br J Ophthalmol 1976;60:21–30.
Rabb MF, Gagliano DA, Teske MP. Retinal arterial macroaneurysms. Surv Ophthalmol 1988;33:73–96.(E Yamanaka, N Ohguro, A K)
Correspondence to:
N Ohguro MD
Department of Ophthalmology, Osaka University Medical School E7, 2-2, Yamadaoka, Suita, Osaka, 565-0871, Japan; nohguro@ophthal.med.osaka-u.ac.jp
Accepted for publication 12 November 2003
ABSTRACT
Aim: To determine the frequency and clinical characteristics of retinal arterial macroaneurysms in patients with uveitis.
Methods: A retrospective review of the clinical, photographic, and angiographic records of 1007 patients with uveitis, examined at the Osaka University Hospital uveitis clinic between January 1995 and April 2002, was performed. All of the records were examined to determine whether macroaneurysms were present, and when present, to determine the laterality, type, location, clinical course, and the presence of associated systemic and ocular diseases.
Results: Of the 1007 patients with uveitis, only 14 (1.4%) had macroaneurysms. 12 of these 14 patients had peripheral multifocal chorioretinitis (PMC), and five of these 12 were diagnosed with sarcoidosis and the other seven without sarcoidosis. There was only one case with sarcoidosis without PMC, and the remaining case was uveitis of unknown origin. There were 18 macroaneurysms in all cases and 17 (94.4%) were the exudative type, and the remaining one was the haemorrhagic type. Two patients had been treated for systemic hypertension but the others had no signs of systemic hypertension or cardiovascular disease.
Conclusions: Macroaneurysms are not characteristically found in patients with uveitis, but the majority are found in patients with PMC. The majority of the macroaneurysms were the exudative type, and the conclusion is that patients with PMC should be carefully examined for exudative macroaneurysms.
Abbreviations: BHL, bilateral hilar lymphadenopathy; PMC, peripheral multifocal chorioretinitis
Keywords: exudative macroaneurysms; peripheral multifocal chorioretinitis; retinal arterial macroaneurysms; uveitis
Arterial retinal macroaneurysms are fusiform or round dilations of the retinal arterioles that occur in the posterior fundus within the first three orders of arterial bifurcation.1 The supratemporal artery is the most common site, and the macroaneurysms can result in visual impairment.2 The most common clinical symptom of arterial retinal macroaneurysms is a decline in central visual acuity from the retinal oedema, exudation, and haemorrhages. Some lesions can naturally thrombose and undergo spontaneous involution,3 but others require treatment. Haemorrhage into the retina, subretinal space, or vitreous may require laser treatment or vitrectomy,2 while the exudative process may progress and cause structural damage to the macula requiring laser photocoagulation.
Macroaneurysms have been described in angiomatosis retinae, Eales disease, Leber’s military aneurysms, Coats’ disease,2,4 branch retinal artery occlusion, branch retinal vein occlusion,5 and hypertensive retinopathy.2 Patients with retinal macroaneurysms often have systemic vascular problems such as hypertension and general arteriosclerotic cardiovascular disease.1,2
It has been reported that haemorrhagic macroaneurysms are the major type in patients with hypertension or cardiovascular disease.6 In contrast, exudative macroaneurysms were most frequently associated with retinal vein occlusions.5
Recently, macroaneurysms have been reported in eyes with peripheral multifocal chorioretinitis (PMC),7 one of the white dot syndromes that is characterised by a strong association with sarcoidosis.8 In that study, the authors reported that eight of 48 patients (17%) with PMC had macroaneurysms, and six of these eight were diagnosed as having sarcoidosis.7 Although it has been suggested that macroaneurysms may be a complication of an inflammatory vascular process in patients with PMC, there is a possibility that a higher incidence of macroaneuryms may be found in patients with uveitis in general.
To determine whether macroaneurysms are frequently found in patients with uveitis in general or is peculiar to PMC, we have retrospectively reviewed the clinical and photographic records of 1007 patients seen in our uveitis service over an approximately 7 year period. We shall show that macroaneuryms were not frequently found in uveitis in general, but were mainly associated with PMC. We also found that the majority of the macroaneurysms in our uveitic patients were the exudative type.
PATIENTS AND METHODS
We reviewed the clinical and photographic records of 1007 patients (average age 40.6 years; range 3–89 years) with uveitis who were seen at the Osaka University Hospital uveitis clinic between January 1995 and April 2002. All patients were examined by NO, SY, or YN, and the clinical and photographic records were reviewed independently by EY and AK after April 2002.
All patients had undergone a standard complete ophthalmologic examination, and 897 patients had fluorescein angiography at least once. Fluorescein angiograms were not only of the macula area but also from as far peripheral as possible. The patients who did not undergo fluorescein angiography were those diagnosed with anterior uveitis, and their fundi were normal by funduscopic examinations.
Macroaneurysms were defined as saccular or fusiform dilations of the retinal arterioles located at the bifurcations or arteriovenous crossings measuring 200 μm or more and located within the first three orders of arterial bifurcation.1 We recorded the laterality, type, location, clinical course, and the presence of associated systemic and ocular diseases for all macroaneurysms. The average duration of follow up of all patients was 48 months (range 1–106 months), and that of patients with macroaneurysms was 33.8 months (range 3–96 months).
All patients had undergone standard laboratory screening tests to evaluate the possible cause of the uveitis. Patients diagnosed with PMC fulfilled all of the following criteria; (1) presence of multiple (>10), small, round, punched out lesions in the peripheral retina, (2) absence of central chorioretinal lesions, and (3) presence of associated intraocular inflammatory reactions.8
Sarcoidosis uveitis was diagnosed when ocular inflammation was consistent with characteristic ocular manifestations such as iridocyclitis with mutton fat keratic precipitates or iris nodules, periphlebitis, and sarcoid granulomata, in a patient with extraocular findings diagnostic of sarcoidosis.9 For this study, we considered sarcoidosis as biopsy proved when the diagnosis was confirmed by histological examination of a biopsy specimen.10 Cases without biopsy but with hilar adenopathy, a radiological confirmation of sarcoidosis, were classified as possible sarcoidosis.8
All other ocular diseases were diagnosed according to current diagnostic criteria. Systemic diseases were determined by patient report at the initial visit.
RESULTS
Of the 1007 patients, 139 fulfilled the diagnostic criteria for PMC, of which 46 (33.1%) had extraocular findings diagnostic of sarcoidosis. The other 93 cases diagnosed with PMC did not have extraocular findings diagnostic of sarcoidosis. The diagnoses of the entire series are listed in table 1.
Table 1 Diagnosis of uveitis
Of the 1007 patients with uveitis, 68 were diagnosed as having sarcoidosis uveitis; 18 had histologically confirmed sarcoidosis and 50 had radiologically confirmed sarcoidosis (hilar adenopathy). Among the 68, 46 (67.6%) had PMC and 22 (32.3%) did not have PMC.
The average age of patients with sarcoidosis was 47.7 years (range 24–84 years), and that of patients with PMC was 55.3 years (range 29–83 years).
Of the 1007 patients, 14 patients (1.39%; 10 women and four men with an average age of 60.7 years: range 47–82 years) had macroaneurysms; 12 were diagnosed with PMC, one without PMC, and one of uveitis of unknown origin. Of these 12 patients with PMC, five were also diagnosed with sarcoidosis and the other seven without sarcoidosis. The clinical characteristics of patients with macroaneurysms are presented in table 2.
Table 2 Clinical characteristics of patients with macroaneurysms
The macroaneurysms were unilateral in 12 patients and bilateral in two patients for a total of 16 eyes with macroaneurysms. One eye had three macroaneurysms while the other eyes had one for a total of 18 macroaneuryms. All but one (17 of 18, 94.4%) were exudative macroaneurysms, and the remaining one was a haemorrhagic type. Seven of the macroaneurysms were in the superotemporal artery, five in the macular artery, three in the inferotemporal artery, two in the inferonasal artery, and one in the superonasal artery. Five macroaneurysms were symptomatic and caused visual loss. Spontaneous regression occurred in 10 macroaneurysms, while in seven exudative macroaneurysms lipid exudates from the macroaneurysms threatened the fovea and laser photocoagulation was performed. The typical appearance of a retinal arterial macroaneurysm in a case of PMC with sarcoidosis uveitis is shown in figure 1.
Figure 1 (A) Fundus appearance of case 1. Severe macular oedema with lipid exudates can be seen in the right eye. (B) Fluorescein angiogram clearly shows the existence of a retinal macroaneurysm as a round dilation located at the arteriolar bifurcation of the right eye.
Among the 14 patients with macroaneurysms, two patients had been treated for systemic hypertension but none had other cardiovascular diseases. Others had no signs of systemic hypertension or cardiovascular disease.
DISCUSSION
Our results confirmed the high association of macroaneurysms with PMC (12 of 14 cases), and this high incidence was not seen in uveitis in general. We also found a significant association between PMC and sarcoidosis as previously reported.8
Interestingly, all but one macroaneurysm (17 of 18) was the exudative type. The largest study of arterial macroaneurysms consisted of 40 patients, and the authors reported that haemorrhagic macroaneurysms were the major type, and hypertension and systemic vascular disease were prominent features.6 In contrast, all but one of the macroaneurysms in our patients were the exudative type. This particularly high incidence of exudative macroaneurysms is a definitive characteristic of macroaneurysms in patients with PMC.
The high systolic blood pressures in patients with haemorrhagic macroaneurysms may have led to the vascular haemorrhages11,12 because of the increased transmural tension and greater pulsation amplitude. In comparison, the vascular damage due to inflammations and chronic vasculopathy may have led to the formation of macroaneurysm in the PMC cases, and a leakage through weak vascular walls may have contributed to the exudative process.7 However, the very high incidence of exudative macroaneurysms in cases of PMC, and not in uveitis in general, needs further explanation.
Previous studies have shown that retinal branch vein occlusions were frequently associated with macroaneurysms, and they were commonly associated with non-haemorrhagic macroaneurysms.5,6 As in sarcoidosis uveitis, PMC is also frequently associated with vasculitis, and more specifically, periphlebitis.7,8 While periphlebitis usually does not induce significant vascular occlusions, it occasionally causes occlusive retinal vascular disease,9 which may contribute to the macroaneurysm formation. A better understanding of the development of retinal macroaneurysms in PMC will require a more intensive observation, especially in relation to the region and the severity of inflammation including periphlebitis and the location of the macroaneurysm during the clinical course of PMC.
Although the exact incidence of retinal macroaneurysms in cases of systemic hypertension or cardiovascular disease has not been reported, more than 60% of patients with macroaneurysms have been reported to have hypertension.1,6,13–15 Of our 14 uveitic patients with macroaneuryms, only two patients (14.3%) had been treated for systemic hypertension and the others had no signs of systemic hypertension or cardiovascular disease. This indicates that PMC itself may have had a role in the formation of the macroaneurysms in our patients. However, not all of our uveitic patients in this study were followed regularly throughout the 7 year period of review, and some macroaneurysms might have spontaneously regressed before the time of a follow up examination. In addition, the presence or absence of systemic hypertension and cardiovascular diseases was determined by patient report and unidentified hypertension and cardiovascular disease could not be ruled out in our study.
We must also consider the ageing process as an important factor in macroaneurysm formation in PMC, because patients with PMC were older than patients with other uveitis. Moreover, because we did not perform fluorescein angiography on patients with anterior uveitis, there was a possibility that we missed some macroaneurysms in these cases. Therefore, a prospective, long term, and precise observation of both the systemic and ophthalmological conditions of a larger number of cases will be necessary to confirm our finding of the high incidence of macroaneurysms in cases of PMC, and not in uveitis in general.
Although the mechanism of macroaneurysm formation in PMC still remains unclear, our observations demonstrated that patients with PMC should be carefully examined for exudative retinal macroaneurysms.
REFERENCES
Robertson DM. Macroaneurysms of the retinal arteries. Trans Am Acad Ophthalmol Otolaryngol 1973;77:55–67.
Chew EY, Murphy RP. Acquired retinal macroaneurysms. In: Schachat AP, ed. Retina. 3rd ed. St Louis: Mosby, 2001:1500–4.
Asdourian GK, Goldberg MF, Jampol L, et al. Retinal macroaneurysms. Arch Ophthalmol 1977;95:624–8.
Nadel AJ, Gupta KK. Macroaneurysms of the retinal arteries. Arch Ophthalmol 1976;94:1092–6.
Cousins SW, Flynn HW Jr, Clarkson JG. Macroaneuryms associated with retinal branch vein occlusion. Am J Ophthalmol 1990;109:567–570.
Lavin MJ, Marsh RJ, Peart S, et al. Retinal arterial macroaneurysms: a retrospective review of 40 patients. Br J Ophthalmol 1987;71:817–25.
Rothova A , Lardenoye C. Arterial macroaneurysms in peripheral multifocal chorioretinitis associated with sarcoidosis. Ophthalmology 1998;105:1393–7.
Lardenoye CWTA, Van der Lelij A, de Loos WS, et al. Peripheral multifocal chorioretinitis: a distinct clinical entity? Ophthalmology 1997;104:1820–6.
Jabs DA, Nguyen QD. Sarcoidosis. In: Schachat AP, ed. Retina. 3rd ed. St Louis: Mosby, 2001:1727–37.
Weinberger SE. Sarcoidosis. In: Goldman L, Bennett JC, eds. Cecil textbook of medicine. 21st ed. Philadelphia: Lea & Febinger, 1996:433–8.
Abdel-Khalek MN, Richardson J. Retinal macroaneurysm: natural history and guidelines for treatment. Br J Ophthalmol 1986;70:2–11.
Fichte C , Streeten BW, Friedman AH. A histopathologic study of retinal arterial aneurysms. Am J Ophthalmol 1978;85:509–18.
Cleary PE, Kohner EM, Hamilton AM, et al. Retinal macroaneurysms. Br J Ophthalmol 1975;59:355–61.
Lewis RA, Norton EWD, Gass JDM. Acquired arterial macroaneuryms of the retina. Br J Ophthalmol 1976;60:21–30.
Rabb MF, Gagliano DA, Teske MP. Retinal arterial macroaneurysms. Surv Ophthalmol 1988;33:73–96.(E Yamanaka, N Ohguro, A K)