Long-term recovery following surgical treatment for ulnar artery occlusion

Long-term recovery following surgical treatment for ulnar artery occlusion

long-term Recovery Following Surgical Treatment for Ulnar Artery Occlusion Neal 6. Zimmerman, MD, Sheryl ltkin Zimmerman, PhD, Michael A. McClinton, M...

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long-term Recovery Following Surgical Treatment for Ulnar Artery Occlusion Neal 6. Zimmerman, MD, Sheryl ltkin Zimmerman, PhD, Michael A. McClinton, MD, E. F. Shaw Wilgis, MD, Cherry 1. Koontz, PT, Jane Wallace Buehner BSN, Baltimore, MD Fourteen

patients

measurements or reconstruction brachial tion

surgically

(DBI)

for arterial

artery

treated

by arterial

without

of the eight reconstructed reconstruction it was

group,

negative

presurgical Complaints

DBI change

in the resection

in the small, group.

were

cold

intolerance

intolerance at follow-up

were ring,

Eleven

over half continued

and contact groups

at follow-up

than

0.7,

treated

Ulnar artery thrombosis has acquired the name hammer syndrome” due to its frequent occurrence among laborers who use the palm of the hand as a hammer. ‘-4 In Guyon’s canal, the ulnar artery is relatively immobile and protected by fascial supports. After emerging, it runs superficially across the hypothenar musculature for a distance of approximately 2.0 cm. Here, it is protected only by subcutaneous tissue and the scant muscle fibers of From the Raymond M. Curtis Hand Center, The Union Memorial Hospital. Baltimore, MD. Received for publication Dec. 17, 1992; accepted for publication Aug. 10. 1993. No benefits in any form have been received or will be received from a commercial party related directly or indirectly to the subject of this article. Reprint requests: Neal B. Zimmerman, MD, Greater Chesapeake Hand Specialists PA, 1400 Front Avenue, Suite 100, Lu-

ligation

resection

improvement

pain on a regular different

In the

whereas from

their

basis. Reports

following between

Surg 1994;19A:

evalua-

values.

was positive,

improvement

were Seven

by Doppler

fingers

(J Hand

patients

resection.

and index

also showed

to the

of the occluded

arterial

evaluation

indicated

pressure

Eight

to preoperative

patients

The digital

to 0.7 was an indica-

compared

to experience

evaluation.

with

pressure

blood

appropriate.

were not significantly

LLhypothenar

therville. MI) 21093.

of digital

blood between

segment.

of less than or equal

considered

and six patients

Digital

the choice

of the occluded

the ratio

A DBI value was

occlusion. guide

ulnar arteries were patent at follow-up

of pain and cold

and reconstruction

resection

If the DBI was greater

obtained

status, although

of environmental

artery helped

by calculating

reconstruction

reconstruction

DBI measurements

for ulnar

following

pressure.

reconstruction.

segment

tion.

artery

was derived

brachial

arterial

treated

pre- and intraoperatively

of the ulnar

index

simultaneous

were

obtained

surgery.

the resection

17-21.)

the palmaris brevis muscle, rendering it vulnerable to compressive injury.5 Repeated contusion or trauma to the hypothenar eminence forces the ulnar artery against the hook of the hamate, possibly damaging the arterial intima with resultant thrombosis. Ulnar artery thrombosis often is noted first as pain in the hypothenar eminence associated with a tender mass corresponding to the thrombosed vessel. Pallor and cold intolerance typically are noted in the ulnar digits. Treatment is initiated by protection during cold exposure and administration of calciumchannel blocking agents to combat vasospasm.’ The goal of surgical treatment is to increase arterial inflow to the affected digits. Flow can be augmented by either reconstruction of the thrombosed segment or by surgical sympathectomy. Resection of the thrombosed arterial segment constitutes a local sympathectomy, possibly by division of the terminal branches of the nerve of Henle, which is thought to The Journal of Hand

Surgery

17

18

Zimmerman

et al. / Ulnar

Artery

Occlusion

conduct a majority of the sympathetic fibers to the ulnar artery.7 Removal of this nidus for sympathetically driven excessive vascular tone in the hand may significantly increase digital blood flow. Vascular testing was used in 14 patients to guide the choice between arterial reconstruction and resection. This study was designed to assess residual symptoms in these patients and to compare current digital blood pressure to analogous measurements obtained at the time of surgery.

Materials and Methods Patients with suspected ulnar artery occlusion undergo pneumoplethysmography and Doppler examination to evaluate flow through the ulnar artery and to measure individual digital blood pressures. The digital blood pressures obtained are divided by the concurrent ipsilatera! brachial pressure to yield the digital brachia! index (DBI). Preoperative DBI values less than 0.7 suggest that arterial reconstruction may be required to provide adequate arterial inflow to the digits. Conversely, if the preoperative DBl value is greater than 0.7, digital flow is likely to be adequate without reconstruction. Pneumoplethysmography of the affected digits and at least one radial digit or the thumb following complete surgical exposure and isolation of the ulnar artery provide intraoperative baseline values. The ulnar artery segment then is resected and microvascular clamps are applied to the ends of the remaining vessel. The tourniquet is deflated again, and digital blood pressure measurements are repeated. Values

Table 1. Comparison

of Preoperative

of the DBI guide the intraoperative choice between resection and reconstruction. Care must be taken to ensure that the ambient temperature of the operating room is controlled and the tissues are not allowed to desiccate. Additionally, axillary block anesthesia is beneficial to diminish proximal sympathetic influence. If arterial reconstruction is necessary, it is crucial that the damaged arterial segment be resected back to normal intima. Usually a vein graft, often terminally bifurcated, is required to ensure a tension-free repair. The proximal arterial clamp is released prior to anastamosis to ascertain adequate pulsatile flow. If vigorous flow is not obtained, usual measures including further proximal resection, topical vasodilators, and adventitial removal are implemented. Postoperatively, antibiotics are administered for the first 24 hours, low molecular weight dextran is administered for 72 hours, and 325 mg aspirin is prescribed daily for 6 months. The study group includes 14 patients who were surgically treated for ulnar artery occlusion. They were evaluated with noninvasive vascular testing and interviewed at an average of 45 months (range, IS-84 months) following surgery. The study protoco! was approved by the institutional review board and informed consent was obtained from al! participants. The group was composed of 12 men and 2 women, with an mean age of 47 years (range, 3 l-72 years). One half of the study group indicated that they were exposed to vibrational tools in the workplace, and 6 of 14 patients indicated that they regularly used their hands as hammers prior to surgery.

and Postoperative

Digital Brachial Index (DBI)* Change in DBI

Follow-up (months) 42 84 33 46 39 68 30 18 69 51 18 20 71 45

Patent al Follow~p NA

Ring Finger Small Finger Procedure -Patient 1 Resection unknown - 1.0 2 Resection NA - .82 0 3 Resection NA -.06 -.03 4 Resection NA - .02 +.25 5 Resection NA -.16 0 6 Resection NA + .07 -.02 7 Reconstruction Yes + .Ol unknown 8 Reconstruction Yes + .25 unknown 9 Reconstruction Yes +.12 + .43 10 Reconstruction Yes -.20 - .03 11 Reconstruction Yes + .09 +.27 12 Reconstruction Yes +.06 + .30 13 Reconstruction Yes - .lO + .05 14 Reconstruction No -.16 +.11 -____ * DBI is determined by dividing the digital blood pressure by the concurrent brachial blood pressure.

Index

Finger

- 1.0 -.64 +.20 - .23 -.07 -.19 -.18 +.11 +.66 +.14 + .14 0 +.24 -.12

The Journal of Hand Surgery / Vol.

19A No.

1 lanuary 1994

19

Small

Ring

I

-0.35

I

I

I

I

I

I

I

I

-0.25

-0.20

I I

-0.30

-0.15

-0.10

I

I I

-0.5

0.00

I

I

I

I

I I

0 10

0.15

0.05

0.:

Mean DBI Change Figure 1. Average

change

in the DBl

value per tinger

All but three patients were active smokers at the time of surgery; the three nonsmokers claimed to have quit smoking recently. Eight patients underwent arterial reconstruction, including reversed interpositional vein grafts (n = 6) and direct end-toend anastamoses (n = 2). Six patients underwent resection of the occluded segment and ligation of the vessel ends. Results Seven of the eight reconstructed ulnar arteries were patent by Doppler evaluation at follow-up evaluation. Digital pressure measurements were obtained, and DBI values were calculated for each digit. Follow-up DBI values were compared to presurgical values, and change scores were calculated for the small, ring, and index fingers (Table I. Fig. I). The greatest difference between treatment groups was noted in the index finger. These data were evaluated utilizing two-tailed l-tests and analysis of variance. The differences in DBI measurements between and within the treatment groups for

preoperative

versus postoperative.

the small and ring fingers were not statistically significant, although the difference in the index finger between resection and reconstruction groups approached significance (p = .056). As shown in Table 2. patients remained symptomatic following surgery. although improvement from their presurgical state was apparent. Seven of the patients reported continued pain in their operated hand 3 or more days a week, four of whom had daily pain. The remaining patients reported pain much less frequently or not at all. It is important to note that all patients reported daily pain prior to surgery. When asked to compare the pain in their hands to their presurgical status, I I indicated improvement over their preoperative condition. Prior to surgery. 5 patients had functional limitations that “caused outcries” or prevented completion of all daily activities. In contrast, at follow-upevaluation. no patients reported such severe disability (Table 3). All patients had environmental cold intolerance preopera-

Table 3. Functional

Limitations

Due to Pain

HCfiUY, .GlQJ:c,r:\ Table 2. Patients’ Reports of Pain Frequency Bqfiw

Daily 3-6 days/week 1-2 days/week l-3 days/month
S/rtpr-~

Ajier

Swgrrl\

14

4

0 0 0 0

3 0 3 3

Pain Does Not

Interfere

With Activities Pain Interferes With Activities Pain Prevents Activities Pain Prevents Activities and Causes “Outcries” Pain Prevents All Activities

A.jiCV s//,ger\

I

I

I

x

3 3

5 0

1

0

20

Zimmerman

et al. / Ulnar

Artery

Occlusion

tively compared to 12 at follow-up evaluation. Likewise, eight patients had preoperative contact cold intolerance compared to five at follow-up evaluation.

Discussion This study investigated the clinical outcome of patients surgically treated for ulnar artery occlusion by either arterial resection or reconstruction. Preoperative and intraoperative digital blood pressure measurements were used as criteria to guide the choice between these two options. Rothkopf et al.8 employed intraoperative plethysmography in a similar manner. Their indication for arterial reconstruction was the presence of a flat or blunted digital wave form following resection and tourniquet release. Our criterion differs in that the actual digital pressure measurements were utilized rather than the qualitative appearance of the waveform. We chose the DBI value of 0.7 as the point at which digital pressure is inadequate and arterial reconstruction advisable. Our choice of this value was influenced by the report of Gelberman et al.9 on a group of patients with replanted digits. They noted that all patients in which the digital pulse pressure was less than 75% of the contralateral side had severe cold intolerance.’ We also noted the study of Gross et al. who reported forearm claudication in their patients with a segmental pressure of 63% or less of the contralateral side.‘” Our DBI value is midway between these two figures. Doppler examination demonstrated that seven of the eight reconstructed arteries were patent at reevaluation. Similarly, Mehlhoff and Wood veingrafted eight patients with chronic ulnar artery occlusion. At a minimum follow-up period of 1 year, seven of their eight vein grafts were patent.” Koman and Urbaniak employed several techniques to assess the need for arterial reconstruction. Relative contraindications for vein grafting included the presence of pulsatile back-flow from the distal arterial stump, normal digital blood pressure waveforms on plethysmography, and elevated arterial backflow pressure. They reported patency in 12 of their 17 patients.‘* DBI change scores were calculated to assess alterations in digital blood pressure following surgery. Patients undergoing resection exhibited primarily negative change scores, while arterial reconstruction patients had largely positive change scores. While statistically insignificant, these differences may relate to the regional sympathectomy accomplished by the arterial resection. The removal of the nidus for sympathetically mediated excess vascular

tone may exert its strongest effect in the vicinity of the resection, decreasing with distance. Comparison of the DBI in the index finger for the resection and reconstruction group was most marked among the fingers measured. Assuming that the sympathectomy effect is similar in the index finger in these two groups, the difference in blood flow may be explained by an increase in radial artery flow. In contrast, an increase in ulnar artery flow would most likely increase pressure in the small finger pressure as well. We did not observe this increase. Possibly, the presence of a complete superticial arch in this two-vessel system facilitates augmented radial artery inflow. The entire group reported continued symptoms after surgery, but patient satisfaction was high. Differences in self-reported symptoms were not statistically significant between groups, nor were trends apparent in symptomatology or stratification for either group. Although differences in DBI changes between groups were noted, they may be spurious due to extraneous variables that could impact on the validity and reliability of these measurements (e.g., ambient temperature of the operating room, continued digital vasospasm due to humoral factors, emboli in the digital vessels). In consideration of these variables and the small sample size, this study warrants replication. Larger samples also would permit a more rigorous examination of the relationship between DBI change and symptoms and satisfaction following arterial reconstruction and resection. The authors thank Melissa Reuland for her assistance in data collection.

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i Vol. 19A No. 1 january

1994

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11. Mehlhoff TL, Wood MB. Ulnar artery thrombosis and the role of interpositional vein grafting: patency with microsurgical technique. J Hand Surg 199 I : 16A: 274-8. 12. Koman LA, Urbaniak JR. Ulnar artery thrombosis. Hand Clin 1985;1:311-5.