Splenectomy for adult patients with idiopathic thrombocytopenic purpura: a systematic review to assess long-term platelet count responses, prediction of response, and surgical complications

Kojouri, Kiarash; Vesely, Sara K.; Terrell, Deirdra R.; George, James N.

doi:10.1182/blood-2004-03-1168

Abstract

Splenectomy has been a standard treatment for adult patients with idiopathic thrombocytopenic purpura (ITP) for more than 50 years. However, the durability of responses, the ability to predict who will respond, and the frequency of surgical complications with splenectomy all remain uncertain. To better interpret current knowledge we systematically identified and reviewed all 135 case series, 1966 to 2004, that described 15 or more consecutive patients who had splenectomy for ITP and that had data for 1 of these 3 outcomes. Complete response was defined as a normal platelet count following splenectomy and for the duration of follow-up with no additional treatment. Forty-seven case series reported complete response in 1731 (66%) of 2623 adult patients with follow-up for 1 to 153 months; complete response rates did not correlate with duration of follow-up (r = -0.103, P = .49). None of 12 preoperative characteristics that have been reported consistently predicted response to splenectomy. Mortality was 1.0% (48 of 4955 patients) with laparotomy and 0.2% (3 of 1301 patients) with laparoscopy. Complication rates were 12.9% (318 of 2465) with laparotomy and 9.6% (88 of 921 patients) with laparoscopic splenectomy. Although the risk of surgery is an important consideration, splenectomy provides a high frequency of durable responses for adult patients with ITP. (Blood. 2004; 104:2623-2634)

Introduction

Splenectomy was the primary treatment for idiopathic (immune) thrombocytopenic purpura (ITP) prior to the introduction of glucocorticoids more than 50 years ago.¹ For the past 50 years, splenectomy has remained a standard treatment for adults with ITP who do not respond to glucocorticoid treatment or who continue to require glucocorticoids to sustain a safe platelet count.^2-4 Yet even after decades of experience, important questions concerning splenectomy for ITP remain unresolved.

What is the durability of complete responses achieved with splenectomy? Although many case series describe complete remissions in about two thirds of patients,^2-4 some studies have reported a continuing occurrence of relapses with long-term follow-up.^5,6 It has even been suggested that relapse of ITP may occur in most patients if follow-up after splenectomy is sufficiently long.⁷ Therefore, the durability of responses to splenectomy is uncertain.
Can any preoperative characteristic predict the success of splenectomy? Multiple patient and disease characteristics have been reported to predict response to splenectomy, but the findings are inconsistent. Therefore, the clinical value of any preoperative characteristic is unknown.
What are the mortality and morbidity of splenectomy for ITP? Splenectomy has been considered to be a safe procedure,^2,4 but, because death caused by bleeding in patients with ITP is uncommon, 2 (1.6%) of 134 patients⁸ and 1 (0.4%) of 245 patients⁹ in 2 case series, death caused by splenectomy must be low to be acceptable. Complications of splenectomy may be substantial; one case series reported surgery-related death in 1 (1.3%) and postoperative complications resulting in prolonged hospitalization or readmission in 20 (26%) of 78 patients.⁸ Therefore, the relative risks and benefits of splenectomy are uncertain.

To understand and interpret the large number of publications on these issues, a systematic review^10,11 of all articles describing splenectomy for ITP since 1966 was performed. This review focuses on ITP in adults because spontaneous remissions may occur in many children with persistent thrombocytopenia¹²; therefore, splenectomy is rarely performed.¹³

Methods

Literature search

Ovid software was used to search the Medline database from January 1, 1966, to February 29, 2004. Case series published prior to 1966 were not retrieved, because they often included patients treated before 1950, for whom splenectomy was performed as the primary treatment, before glucocorticoids became available.¹ Also, some current supportive care measures, such as platelet transfusions and intravenous immunoglobulin, were not available prior to 1966. All terms were keyword searched by using unlimited truncation, retrieving articles identified by “splenec:,” “spleen and remov:,” or “spleen and extract:” that were also identified by “thrombocytopenia,” “thrombocytopenic purpura,” “ITP,” or “AITP.” The search was limited to English-language articles. The bibliographies of all retrieved articles were searched for additional relevant articles.

Article selection criteria

Articles published in pediatric journals and articles describing splenic radiation, ultrasound, or embolization were not retrieved. Retrieved articles were selected for review if they reported 15 or more consecutive patients who had splenectomy for ITP and who were followed for at least 1 month after splenectomy, and if they contained data on 1 or more of the 3 outcomes of interest: (1) platelet count response, (2) predictors of response, or (3) surgical complications. Articles reporting fewer than 15 patients were excluded to avoid reports of exceptional patients; however, the bibliographies of these articles as well as the bibliographies of review articles with no patient data were searched to identify additional articles. Case series were not reviewed if it was clear that patient accrual was not consecutive. When multiple case series reported the same or a cumulative group of patients, only the most inclusive case series was selected. Articles describing only group data were selected only if it was clear that all reported patients had had a splenectomy for ITP. Articles were excluded if the data were insufficient to distinguish patients with ITP from patients with disorders other than ITP. When the original authors described their patients as having ITP, we accepted their diagnosis even though some investigators included patients with evidence for other autoimmune disorders within their definition of ITP.

Articles that reported data on children that could not be distinguished from data on adults were included only if it could be determined that 75% or more of the patients were 14 years old or older, or if the case series focused on adults and the mean or median age reflected the adult population, but the range of ages included children. Adults were defined as being 14 years old or older because this was the predominant age distinction for children and adults in the reviewed articles. To assess platelet count response, case series reporting only adults and case series that included both adults and children were analyzed separately. Case series with up to 25% children were not excluded from this review because they accounted for 38 (45%) of all 85 articles that could be analyzed for platelet count response.

Article assessment

In most articles, selection criteria were apparent. For articles in which criteria were unclear, the decision for selection was made by consensus among all authors. Each selected article was reviewed independently by 2 or more of the authors with the use of a standard form and a priori criteria for outcome assessments. Disagreements were resolved by consensus among all of the authors.

Assessment of platelet count response

The platelet count response of patients who survived splenectomy is described in relation to follow-up duration; therefore, patients were not included unless follow-up duration after splenectomy was reported. The platelet count determining a response was defined as the first count obtained after at least 1 month following surgery, to avoid the influence of perioperative treatment for ITP. (1) Complete response was defined as achievement and maintenance of a normal platelet count (> 150 × 10⁹/L or as defined in the original report and at least 100 × 10⁹/L) for all measurements 30 days or longer after splenectomy, and with no additional treatment for ITP, except for the tapering of perioperative glucocorticoids or other treatments. (2) Partial response was defined as achievement of a platelet count of 50 × 10⁹/L (or 30 × 10⁹/L in recent publications) or more for any measurement of 30 days or longer after splenectomy, with or without other treatment, excluding patients who qualify for complete response. Therefore, patients who relapsed after initially achieving a normal platelet count were considered to have a partial response. Some articles only described complete responses and did not describe partial responses. (3) No response was defined as failure to achieve a platelet count of 50 × 10⁹/L (or 30 × 10⁹/L in recent publications) for any measurement of 30 days or longer after splenectomy. If individual patient platelet counts were not reported, the investigators' description of the group response was accepted if it was clear that the responses were consistent with these criteria. Our definition of a complete response is clear but restrictive; other patients who are defined in this review as having a partial response or no response may have had substantial benefit from splenectomy. Although some patients defined as having a partial response may have had only a transient, trivial increase of their platelet count, others may have had a clinically important increase in their platelet count and required no further treatment. Also some patients defined as having no response may have had a substantially increased platelet count. These distinctions among patients defined as having a partial response or no response were not possible in most articles.

Relapse was defined as the recurrence of thrombocytopenia following initial achievement of a normal platelet count. It was not possible to distinguish patients who had a recurrence of only transient, mild thrombocytopenia from patients who had recurrent severe, symptomatic thrombocytopenia. Thirty-seven articles that could be evaluated for platelet count response could not be evaluated for relapse because only a single platelet count was reported, the time of relapse was not reported, or it was not clear whether the patients had ever achieved a normal platelet count.

Because of the frequency of spontaneous remissions in children with chronic ITP,¹² data from case series that included up to 25% children and in which data on children and adults could not be distinguished were analyzed separately from case series reporting only adult patients. Because the technique of splenectomy should not affect the platelet count response, data from case series reporting open laparotomy and laparoscopy were combined for this analysis.

Assessment of predictors of response

Articles were analyzed only if data were presented to support the conclusion that a variable did or did not predict a response to splenectomy. Therefore, articles that did not present a statistical analysis of their data, or did not present data from which we could calculate a P value, were excluded from this analysis. Application of uniform criteria or analysis of pooled data from different articles was not possible because case series assessed different demographic, clinical, and laboratory variables in different ways and used different definitions for a successful outcome. Also the methodology of techniques, such as determination of the site of platelet sequestration, was different among the articles. Variables reported in each article were categorized as predictive, not predictive, or not interpretable. We reported variables as predictive if (1) the observed difference was statistically significant and (2) the correlation was persistent for the duration of patient follow-up. If the original authors had performed a multivariate analysis, only the variables that were determined to independently correlate with response after adjustment for other variables were accepted as predictive. If no statistical comparison was made in the original article, we performed an appropriate statistical test to obtain the P value. If appropriate statistical evaluation of the presented data showed no significant correlation of a variable, but the original authors had reported the variable as predictive, we categorized the variable as not interpretable.

Because the technique of splenectomy should not affect the platelet count response, data from case series reporting open laparotomy and laparoscopy were combined for this analysis. Data from case series of adults only and adults plus children were also combined; although patient age may affect the response to splenectomy, age was analyzed as one of the prediction variables.

Assessment of surgical complications

Complications related to splenectomy were defined as those occurring within 30 days of splenectomy, or later if the complication occurred during the original hospitalization for splenectomy. Complications beyond the postoperative period, such as overwhelming sepsis¹⁴ and thrombosis^15-17 that may be attributable to the absence of the spleen, were not analyzed. Even if an article did not explicitly address surgical complications, data were included in the analysis of surgical mortality if deaths were reported or if it was clear that no patients had died.

Because the technique of splenectomy may affect the risk for surgical complications, case series describing open laparotomy and laparoscopic procedures are described separately. For articles that accrued patients prior to 1991, the year of the first report of laparoscopic splenectomy for ITP,¹⁸ and the surgical technique was not defined, it was assumed that splenectomy was performed by open laparotomy. However, if patient accrual began during or after 1991 and the surgical technique was not defined, the article was not included in this analysis. If the article stated that both open laparotomy and laparoscopy were performed but the data did not distinguish these techniques, the article was not included in this analysis. Data from case series reporting adults only and adults plus children were combined for this analysis.

Statistical methods

All data were entered into a Microsoft Access (Redmond, WA) database. The correlation between duration of follow-up and the complete response rate and between duration of follow-up and the relapse rate were evaluated by the Spearman correlation coefficient; the corresponding graphs were produced with Microsoft Excel (Redmond, WA). When it was necessary to analyze data from the reviewed articles for correlation of prediction variables with response, we used the chi-square test of independence to evaluate differences between rates of platelet count response to splenectomy across categorical variables. Mortality rates with open laparotomy and laparoscopic techniques were compared by using Fisher exact test; morbidity rates were compared by using the chi-square test. A 2-sided P less than .05 was considered statistically significant.

Results

The literature search identified 436 articles (Figure 1); 306 articles did not meet our selection criteria and were not reviewed. We selected 130 articles that reported 15 or more consecutive patients who had splenectomy for ITP and that presented evaluable data on 1 or more of the 3 outcomes of interest: (1) platelet count response, (2) predictors of response, or (3) surgical complications. Patient accrual in these articles spanned 58 years, from 1944 to 2002, and the articles represent the experience of 29 countries (Table 1). These 130 articles contained 135 case series, as 5 articles describing surgical techniques reported separate case series for laparotomy and laparoscopic splenectomy.^{100,102,103,105,140} In 9 of the case series,^{9,45,59,88,94,115,130,134,141} patients were enrolled and analyzed prospectively for long-term platelet count responses. Two of the 9 prospective case series were randomized trials in which splenectomy was part of the treatment in both groups.^59,141 No case series compared splenectomy with either a nonsurgical form of treatment or observation. In 4 other case series, only collection of perioperative data was performed prospectively^{91,114,120,139}; the remaining 122 case series were retrospective analyses. The numbers of case series and patients analyzed for each of the different outcomes are presented in Figure 1.

Figure 1.

View large Download PPT

Article and patient selection. Articles were retrieved for review if their journal, title, or abstract suggested that they contained evaluable data on eligible patients and indicated that the articles did not report primarily on children. Retrieved articles were selected for review if they reported 15 or more consecutive patients who had splenectomy for ITP and who were followed for at least 1 month after splenectomy, and if they contained data on 1 or more of the 3 outcomes of interest: (1) platelet count response, (2) predictors of response, or (3) surgical complications.

Table 1.

Case series reporting 15 or more consecutive patients with splenectomy for ITP that contain data on platelet count response, predictors of response, or surgical death and complications

Publication date and accrual years	Reference	Country	No. patients	No. splx ITP patients	Splx method	Complete response (%)	Evaluated predictors of response	Evaluated deaths and complications
1966
1952-1965	Kwietniak¹⁹	Poland	119	35	OS	—	No	Yes
1967
1949-1966	Wilde et al²⁰	United States	43	42	OS	—	Yes	Yes
1968
1952-1964	Nordoy and Neset²¹	Norway	179	43	OS	32/37 (86)	No	Yes
1970
1951-1966	Orringer et al²²	United States	23	23	OS	14/19 (74)	Yes	Yes
1959-1967	Horta et al²³	United States	34	15	OS	10/15 (67)	No	Yes
1950-1967	Hodam²⁴	United States	310	34	OS	—	No	Yes
1972
1945-1970	Thompson et al²⁵	United States	66	36	OS	24/35 (69)	Yes	Yes
1973
1956-1971	JiJi et al²⁶	United States	92	51	OS	34/51 (67)	No	Yes
1974
1944-1970	Ogawa et al²⁷	Japan	53	33	OS	—	No	Yes
1975
1962-1970	Cowick and Leon²⁸	United States	693	21	OS	—	No	Yes
1967-1974	Brennan et al²⁹	United States	29	29	OS	—	Yes	Yes
—	MacPherson and Richmond³⁰	United Kingdom	72	72	OS	54/71 (76)	Yes	Yes
1977
—	Ries³¹	United States	34	28	OS	20/28 (71)	Yes	Yes
1978
—	Burger et al³²	Hungary	86	40	OS	26/40 (65)	Yes	Yes
1966-1973	Ikkala et al³³	Finland	41	24	OS	13/24 (54)	Yes	Yes
1979
1967-1979	Laws et al³⁴	United States	130	26	OS	—	No	Yes
1980
1971-1979	DiFino et al³⁵	United States	62	37	OS	18/37 (49)	Yes	Yes
1966-1978	Butoianu³⁶	Romania	188	110	OS	—	No	Yes
1959-1969	Picozzi et al³⁷	United States	38	36	OS	21/36 (58)	No	Yes
1947-1978	Schwartz et al³⁸	United States	478	120	OS	101/115 (88)	No	Yes
1981
1965-1979	Mintz et al³⁹	United States	481	71	OS	33/45 (73)	No	No
1964-1977	Pawelski et al⁴⁰	Poland	177	177	OS	80/118 (68)	No	Yes
1974-1980	Rubins and Woll⁴¹	United States	28	18	OS	12/17 (71)	No	Yes
1968-1977	Ly and Albrechtsen⁴²	Norway	221	80	OS	—	No	Yes
1982
1953-1977	Gruenberg et al⁴³	United States	98	98	OS	79/98 (81)	Yes	Yes
1983
—	Kernoff and Malan⁴⁴	South Africa	67	49	OS	—	Yes	No
—	Kayser et al⁴⁵	Germany	16	16	OS	9/15 (60)	Yes	Yes
1984
1973-1983	Rocco and Stein⁴⁶	United States	42	42	OS	23/40 (58)	Yes	Yes
—	den Ottolander et al⁴⁷	Netherlands	168	75	OS	21/44 (48)	Yes	Yes
1967-1980	Salky et al⁴⁸	United States	69	69	OS	56/69 (81)	No	Yes
—	Pizzuto and Ambriz⁴⁹	South America	934	398	OS	259/398 (65)	Yes	Yes
1956-1981	Musser et al⁵⁰	United States	306	65	OS	50/64 (78)	No	Yes
1985
1979-1984	Schwartz⁵¹	United States	129	29	OS	—	No	Yes
1986
—	Yasunaga⁵²	Japan	1669	399	OS	—	Yes	No
1975-1984	Kochupillai et al⁵³	India	90	27	OS	20/27 (74)	Yes	Yes
1974-1983	Malmaeus et al⁵⁴	Sweden	167	52	OS	—	No	Yes
1971-1981	Jacobs et al⁵⁵	South Africa	148	102	OS	64/98 (65)	Yes	Yes
1987
1975-1985	Akwari et al⁵⁶	United States	565	100	OS	58/100 (58)	Yes	Yes
1975-1985	Lee et al⁵⁷	Taiwan	113	32	OS	20/32 (63)	No	Yes
1969-1983	Dawson et al⁵⁸	United Kingdom	185	34	OS	—	No	Yes
1983-1986	Lang et al⁵⁹	France	26	26	OS	19/26 (73)	No	Yes
—	Russo et al⁶⁰	Italy	119	119	OS	78/119 (66)	Yes	Yes
1967-1987	Coon⁶¹	United States	216	216	OS	156/215 (73)	Yes	Yes
1988
1963-1982	Wilhelm et al⁶²	United States	400	72	OS	—	No	Yes
1979-1986	Grant et al⁶³	United Kingdom	106	30	OS	21/25 (84)	No	Yes
1962-1985	Wanachiwanawin et al⁶⁴	Thailand	698	146	OS	—	No	Yes
1954-1983	Guthrie et al⁶⁵	United States	40	25	OS	—	No	Yes
1989
1981-1988	Siegel et al⁶⁶	United States	59	19	OS	13/19 (68)	Yes	Yes
1973-1986	Fenaux et al⁶⁷	France	181	181	OS	136/181 (75)	Yes	Yes
1979-1987	Shaw and Clark⁶⁸	New Zealand	148	48	OS	—	Yes	Yes
1990
—	Julia et al⁶⁹	Spain	138	138	OS	91/138 (66)	Yes	Yes
1974-1986	Johansson et al⁷⁰	Sweden	200	20	OS	—	No	Yes
1979-1987	Centurioni et al⁷¹	Italy	137	16	OS	11/16 (69)	No	No
1983-1985	Nieminen⁷²	Finland	109	38	OS	27/38 (71)	Yes	Yes
1991
1985-1990	Najean et al⁷³	France	222	103	OS	64/89 (72)	Yes	Yes
1970-1989	Hoefer et al⁷⁴	United States	59	17	OS	—	No	Yes
1992
1974-1989	MacRae et al⁷⁵	Canada	142	69	OS	—	No	Yes
1981-1991	Ketley et al⁷⁶	United Kingdom	72	24	OS	—	No	Yes
1984-1990	Chirletti et al⁷⁷	Italy	70	70	OS	63/70 (90)	Yes	No
—	Dan et al⁷⁸	Japan	247	72	OS	17/60 (28)	No	Yes
1993
1979-1990	Naouri et al⁷⁹	France	72	72	OS	51/71 (72)	Yes	Yes
1984-1990	Lamy et al⁸⁰	France	111	51	OS	34/51 (67)	Yes	Yes
1962-1987	Wanachiwanawin et al⁸¹	Thailand	416	142	OS	62/126 (49)	Yes	No
1970-1989	Schiavotto and Rodeghiero⁸²	Italy	490	178	OS	93/133 (70)	Yes	No
1994
1977-1987	Ben-Yehuda et al⁸³	Israel	712	173	OS	105/146 (72)	No	Yes
1995
1992-1994	Emmermann et al⁸⁴	Germany	27	19	LS	—	No	Yes
1980-1993	Linares et al⁸⁵	Spain	118	32	OS	—	No	Yes
1978-1988	Stasi et al⁸⁶	Italy	208	63	OS	23/63 (37)	Yes	Yes
1978-1992	Aksnes et al⁸⁷	Norway	135	45	OS	—	No	Yes
1992-1994	Gigot et al⁸⁸	Belgium	50	31	LS	22/29 (76)	No	Yes
1996
1968-1993	Hashizume et al⁸⁹	Japan	41	41	OS	26/41 (63)	No	Yes
1990-1996	Brunt et al⁹⁰	United States	26	17	LS	13/17 (76)	No	Yes
1992-1995	Flowers et al⁹¹	United States	43	22	LS	18/21 (86)	No	Yes
1986-1992	Jameson et al⁹²	United Kingdom	64	28	OS	21/28 (75)	No	Yes
1976-1996	Shiino et al⁹³	Japan	26	26	OS	15/26 (58)	Yes	Yes
1984-1991	Winde et al⁹⁴	Germany	72	72	OS	52/70 (74)	Yes	Yes
1993-1995	Kitano et al⁹⁵	Japan	24	20	LS	—	No	Yes
1993-1996	Zamir et al⁹⁶	Israel	17	15	LS	15/15 (100)	No	Yes
1997
1985-1995	Watson et al⁹⁷	Australia	47	47	OS	39/47 (83)	No	Yes
—	Schneider et al⁹⁸	Germany	158	49	—	—	Yes	No
1990-1994	Bohner et al⁹⁹	Germany	56	24	OS	—	No	Yes
1992-1996	Glasgow et al¹⁰⁰	United States	28	16	OS	—	No	Yes
1992-1996	Glasgow et al¹⁰⁰	United States	52	23	LS	—	No	Yes
1980-1994	Mittelman et al¹⁰¹	Israel	69	18	OS	14/18 (78)	No	Yes
1991-1996	Friedman et al¹⁰²	United States	74	19	OS	—	No	Yes
1991-1996	Friedman et al¹⁰²	United States	63	30	LS	—	No	Yes
1998
1990-1997	Lozano-Salazar et al¹⁰³	Mexico	27	27	OS	15/25 (60)	No	Yes
1990-1997	Lozano-Salazar et al¹⁰³	Mexico	22	22	LS	12/21 (57)	No	Yes
1988-1997	Lord et al¹⁰⁴	Australia	34	20	OS	—	No	Yes
1993-1997	Yuan et al¹⁰⁵	Taiwan	22	17	OS	—	No	Yes
1993-1997	Yuan et al¹⁰⁵	Taiwan	30	26	LS	—	No	Yes
1999
1992-1997	Harold et al¹⁰⁶	United States	27	27	LS	19/26 (73)	Yes	Yes
1983-1992	Shimomatsuya and Horiuchi¹⁰⁷	Japan	20	20	OS	6/16 (38)	No	Yes
1994-1997	Brody et al¹⁰⁸	United States	27	27	LS	24/25 (96)	No	Yes
—	Louwes et al¹⁰⁹	Netherlands	141	47	—	30/47 (64)	Yes	No
1979-1999	Mazzucconi et al¹¹⁰	Italy	94	94	—	53/81 (65)	Yes	No
1994-1999	Chung et al¹¹¹	Korea	40	40	LS	28/40 (70)	Yes	Yes
—	Ruivard et al¹¹²	France	75	75	—	—	Yes	No
1992-1997	Stanton¹¹³	United States	30	30	LS	—	No	Yes
1993-1998	Donini et al¹¹⁴	Italy	44	24	LS	—	No	Yes
1992-1997	Tanoue et al¹¹⁵	Japan	76	35	LS	21/35 (60)	No	Yes
2000
1982-1998	Vecchio et al¹¹⁶	Italy	26	26	OS	21/26 (81)	Yes	No
1978-1998	Radaelli et al¹¹⁷	Italy	65	65	—	44/65 (68)	Yes	No
1992-1999	Bagdasarian et al¹¹⁸	United States	33	22	LS	14/22 (64)	No	Yes
1982-1995	Wani and Parray¹¹⁹	India	41	41	OS	—	No	Yes
1993-2000	Park et al¹²⁰	United States, Canada	203	129	LS	—	No	Yes
1994-1999	Gibson et al¹²¹	United States	27	27	OS,LS	24/27 (89)	No	No
1993-1999	Trias et al¹²²	Spain	111	48	LS	37/46 (80)	No	Yes
2001
1974-1994	Portielje et al⁸	Netherlands	152	78	OS	51/60 (85)	No	Yes
1960-1999	Leung et al¹²³	Hong Kong	220	37	OS	—	Yes	No
1992-1997	Katkhouda et al¹²⁴	United States, France	67	67	LS	52/67 (78)	Yes	Yes
—	Fabris et al⁵	Italy	61	61	—	31/54 (57)	Yes	No
1987-1994	Bussel et al¹²⁵	United States, Canada	61	24	OS	—	Yes	No
1987-1998	Choi et al¹²⁶	Korea	107	79	OS,LS	—	Yes	No
2002
1984-2000	Pamuk et al¹²⁷	Turkey	321	76	—	33/57 (58)	No	No
1995-1998	Chan et al¹²⁸	Australia	31	20	LS	—	No	Yes
1991-2000	Gadenstatter et al¹²⁹	Austria	92	38	OS	33/38 (87)	No	Yes
—	Szold et al¹³⁰	Israel	104	104	LS	82/102 (80)	No	Yes
1985-1998	Kumar et al¹³¹	United States	140	140	OS,LS	78/106 (74)	Yes	No
1997-2001	Torelli et al¹³²	Italy	43	23	LS	15/23 (65)	No	Yes
1993-1998	Bresler et al¹³³	France	27	27	LS	18/27 (67)	No	Yes
—	Rossi et al¹³⁴	Italy	25	25	—	14/25 (56)	Yes	No
1991-1998	Delaitre et al¹³⁵	France	209	195	LS	—	No	Yes
2003
1993-1999	Neylon et al⁹	United Kingdom	245	30	—	21/28 (75)	No	No
1983-1996	Srinivasan et al¹³⁶	India	364	71	—	30/59 (51)	Yes	No
1990-2001	Zoghlami-Rintelen et al¹³⁷	Austria	56	48	OS,LS	31/48 (65)	Yes	Yes
1985-1994	Bourgeois et al¹³⁸	France	183	183	OS	159/183 (87)	Yes	Yes
1992-2000	Pace et al¹³⁹	Canada	52	52	LS	—	No	Yes
1988-1993	Schwartz et al⁶	Israel, United States	56	56	OS	32/56 (57)	Yes	Yes
1995-2000	Cordera et al¹⁴⁰	United States	44	44	OS	—	No	Yes
1995-2000	Cordera et al¹⁴⁰	United States	42	42	LS	—	No	Yes
1997-2000	George et al¹⁴¹	United States	70	28	—	15/28 (54)	No	No
1985-1994	Andres et al¹⁴²	France	139	55	OS,LS	33/55 (60)	Yes	No
1996-2002	Knauer et al¹⁴³	United States	101	48	LS	—	No	Yes
2004
1995-2001	Duperier et al¹⁴⁴	United States	67	67	LS	43/67 (64)	Yes	Yes

Publication date and accrual years	Reference	Country	No. patients	No. splx ITP patients	Splx method	Complete response (%)	Evaluated predictors of response	Evaluated deaths and complications
1966
1952-1965	Kwietniak¹⁹	Poland	119	35	OS	—	No	Yes
1967
1949-1966	Wilde et al²⁰	United States	43	42	OS	—	Yes	Yes
1968
1952-1964	Nordoy and Neset²¹	Norway	179	43	OS	32/37 (86)	No	Yes
1970
1951-1966	Orringer et al²²	United States	23	23	OS	14/19 (74)	Yes	Yes
1959-1967	Horta et al²³	United States	34	15	OS	10/15 (67)	No	Yes
1950-1967	Hodam²⁴	United States	310	34	OS	—	No	Yes
1972
1945-1970	Thompson et al²⁵	United States	66	36	OS	24/35 (69)	Yes	Yes
1973
1956-1971	JiJi et al²⁶	United States	92	51	OS	34/51 (67)	No	Yes
1974
1944-1970	Ogawa et al²⁷	Japan	53	33	OS	—	No	Yes
1975
1962-1970	Cowick and Leon²⁸	United States	693	21	OS	—	No	Yes
1967-1974	Brennan et al²⁹	United States	29	29	OS	—	Yes	Yes
—	MacPherson and Richmond³⁰	United Kingdom	72	72	OS	54/71 (76)	Yes	Yes
1977
—	Ries³¹	United States	34	28	OS	20/28 (71)	Yes	Yes
1978
—	Burger et al³²	Hungary	86	40	OS	26/40 (65)	Yes	Yes
1966-1973	Ikkala et al³³	Finland	41	24	OS	13/24 (54)	Yes	Yes
1979
1967-1979	Laws et al³⁴	United States	130	26	OS	—	No	Yes
1980
1971-1979	DiFino et al³⁵	United States	62	37	OS	18/37 (49)	Yes	Yes
1966-1978	Butoianu³⁶	Romania	188	110	OS	—	No	Yes
1959-1969	Picozzi et al³⁷	United States	38	36	OS	21/36 (58)	No	Yes
1947-1978	Schwartz et al³⁸	United States	478	120	OS	101/115 (88)	No	Yes
1981
1965-1979	Mintz et al³⁹	United States	481	71	OS	33/45 (73)	No	No
1964-1977	Pawelski et al⁴⁰	Poland	177	177	OS	80/118 (68)	No	Yes
1974-1980	Rubins and Woll⁴¹	United States	28	18	OS	12/17 (71)	No	Yes
1968-1977	Ly and Albrechtsen⁴²	Norway	221	80	OS	—	No	Yes
1982
1953-1977	Gruenberg et al⁴³	United States	98	98	OS	79/98 (81)	Yes	Yes
1983
—	Kernoff and Malan⁴⁴	South Africa	67	49	OS	—	Yes	No
—	Kayser et al⁴⁵	Germany	16	16	OS	9/15 (60)	Yes	Yes
1984
1973-1983	Rocco and Stein⁴⁶	United States	42	42	OS	23/40 (58)	Yes	Yes
—	den Ottolander et al⁴⁷	Netherlands	168	75	OS	21/44 (48)	Yes	Yes
1967-1980	Salky et al⁴⁸	United States	69	69	OS	56/69 (81)	No	Yes
—	Pizzuto and Ambriz⁴⁹	South America	934	398	OS	259/398 (65)	Yes	Yes
1956-1981	Musser et al⁵⁰	United States	306	65	OS	50/64 (78)	No	Yes
1985
1979-1984	Schwartz⁵¹	United States	129	29	OS	—	No	Yes
1986
—	Yasunaga⁵²	Japan	1669	399	OS	—	Yes	No
1975-1984	Kochupillai et al⁵³	India	90	27	OS	20/27 (74)	Yes	Yes
1974-1983	Malmaeus et al⁵⁴	Sweden	167	52	OS	—	No	Yes
1971-1981	Jacobs et al⁵⁵	South Africa	148	102	OS	64/98 (65)	Yes	Yes
1987
1975-1985	Akwari et al⁵⁶	United States	565	100	OS	58/100 (58)	Yes	Yes
1975-1985	Lee et al⁵⁷	Taiwan	113	32	OS	20/32 (63)	No	Yes
1969-1983	Dawson et al⁵⁸	United Kingdom	185	34	OS	—	No	Yes
1983-1986	Lang et al⁵⁹	France	26	26	OS	19/26 (73)	No	Yes
—	Russo et al⁶⁰	Italy	119	119	OS	78/119 (66)	Yes	Yes
1967-1987	Coon⁶¹	United States	216	216	OS	156/215 (73)	Yes	Yes
1988
1963-1982	Wilhelm et al⁶²	United States	400	72	OS	—	No	Yes
1979-1986	Grant et al⁶³	United Kingdom	106	30	OS	21/25 (84)	No	Yes
1962-1985	Wanachiwanawin et al⁶⁴	Thailand	698	146	OS	—	No	Yes
1954-1983	Guthrie et al⁶⁵	United States	40	25	OS	—	No	Yes
1989
1981-1988	Siegel et al⁶⁶	United States	59	19	OS	13/19 (68)	Yes	Yes
1973-1986	Fenaux et al⁶⁷	France	181	181	OS	136/181 (75)	Yes	Yes
1979-1987	Shaw and Clark⁶⁸	New Zealand	148	48	OS	—	Yes	Yes
1990
—	Julia et al⁶⁹	Spain	138	138	OS	91/138 (66)	Yes	Yes
1974-1986	Johansson et al⁷⁰	Sweden	200	20	OS	—	No	Yes
1979-1987	Centurioni et al⁷¹	Italy	137	16	OS	11/16 (69)	No	No
1983-1985	Nieminen⁷²	Finland	109	38	OS	27/38 (71)	Yes	Yes
1991
1985-1990	Najean et al⁷³	France	222	103	OS	64/89 (72)	Yes	Yes
1970-1989	Hoefer et al⁷⁴	United States	59	17	OS	—	No	Yes
1992
1974-1989	MacRae et al⁷⁵	Canada	142	69	OS	—	No	Yes
1981-1991	Ketley et al⁷⁶	United Kingdom	72	24	OS	—	No	Yes
1984-1990	Chirletti et al⁷⁷	Italy	70	70	OS	63/70 (90)	Yes	No
—	Dan et al⁷⁸	Japan	247	72	OS	17/60 (28)	No	Yes
1993
1979-1990	Naouri et al⁷⁹	France	72	72	OS	51/71 (72)	Yes	Yes
1984-1990	Lamy et al⁸⁰	France	111	51	OS	34/51 (67)	Yes	Yes
1962-1987	Wanachiwanawin et al⁸¹	Thailand	416	142	OS	62/126 (49)	Yes	No
1970-1989	Schiavotto and Rodeghiero⁸²	Italy	490	178	OS	93/133 (70)	Yes	No
1994
1977-1987	Ben-Yehuda et al⁸³	Israel	712	173	OS	105/146 (72)	No	Yes
1995
1992-1994	Emmermann et al⁸⁴	Germany	27	19	LS	—	No	Yes
1980-1993	Linares et al⁸⁵	Spain	118	32	OS	—	No	Yes
1978-1988	Stasi et al⁸⁶	Italy	208	63	OS	23/63 (37)	Yes	Yes
1978-1992	Aksnes et al⁸⁷	Norway	135	45	OS	—	No	Yes
1992-1994	Gigot et al⁸⁸	Belgium	50	31	LS	22/29 (76)	No	Yes
1996
1968-1993	Hashizume et al⁸⁹	Japan	41	41	OS	26/41 (63)	No	Yes
1990-1996	Brunt et al⁹⁰	United States	26	17	LS	13/17 (76)	No	Yes
1992-1995	Flowers et al⁹¹	United States	43	22	LS	18/21 (86)	No	Yes
1986-1992	Jameson et al⁹²	United Kingdom	64	28	OS	21/28 (75)	No	Yes
1976-1996	Shiino et al⁹³	Japan	26	26	OS	15/26 (58)	Yes	Yes
1984-1991	Winde et al⁹⁴	Germany	72	72	OS	52/70 (74)	Yes	Yes
1993-1995	Kitano et al⁹⁵	Japan	24	20	LS	—	No	Yes
1993-1996	Zamir et al⁹⁶	Israel	17	15	LS	15/15 (100)	No	Yes
1997
1985-1995	Watson et al⁹⁷	Australia	47	47	OS	39/47 (83)	No	Yes
—	Schneider et al⁹⁸	Germany	158	49	—	—	Yes	No
1990-1994	Bohner et al⁹⁹	Germany	56	24	OS	—	No	Yes
1992-1996	Glasgow et al¹⁰⁰	United States	28	16	OS	—	No	Yes
1992-1996	Glasgow et al¹⁰⁰	United States	52	23	LS	—	No	Yes
1980-1994	Mittelman et al¹⁰¹	Israel	69	18	OS	14/18 (78)	No	Yes
1991-1996	Friedman et al¹⁰²	United States	74	19	OS	—	No	Yes
1991-1996	Friedman et al¹⁰²	United States	63	30	LS	—	No	Yes
1998
1990-1997	Lozano-Salazar et al¹⁰³	Mexico	27	27	OS	15/25 (60)	No	Yes
1990-1997	Lozano-Salazar et al¹⁰³	Mexico	22	22	LS	12/21 (57)	No	Yes
1988-1997	Lord et al¹⁰⁴	Australia	34	20	OS	—	No	Yes
1993-1997	Yuan et al¹⁰⁵	Taiwan	22	17	OS	—	No	Yes
1993-1997	Yuan et al¹⁰⁵	Taiwan	30	26	LS	—	No	Yes
1999
1992-1997	Harold et al¹⁰⁶	United States	27	27	LS	19/26 (73)	Yes	Yes
1983-1992	Shimomatsuya and Horiuchi¹⁰⁷	Japan	20	20	OS	6/16 (38)	No	Yes
1994-1997	Brody et al¹⁰⁸	United States	27	27	LS	24/25 (96)	No	Yes
—	Louwes et al¹⁰⁹	Netherlands	141	47	—	30/47 (64)	Yes	No
1979-1999	Mazzucconi et al¹¹⁰	Italy	94	94	—	53/81 (65)	Yes	No
1994-1999	Chung et al¹¹¹	Korea	40	40	LS	28/40 (70)	Yes	Yes
—	Ruivard et al¹¹²	France	75	75	—	—	Yes	No
1992-1997	Stanton¹¹³	United States	30	30	LS	—	No	Yes
1993-1998	Donini et al¹¹⁴	Italy	44	24	LS	—	No	Yes
1992-1997	Tanoue et al¹¹⁵	Japan	76	35	LS	21/35 (60)	No	Yes
2000
1982-1998	Vecchio et al¹¹⁶	Italy	26	26	OS	21/26 (81)	Yes	No
1978-1998	Radaelli et al¹¹⁷	Italy	65	65	—	44/65 (68)	Yes	No
1992-1999	Bagdasarian et al¹¹⁸	United States	33	22	LS	14/22 (64)	No	Yes
1982-1995	Wani and Parray¹¹⁹	India	41	41	OS	—	No	Yes
1993-2000	Park et al¹²⁰	United States, Canada	203	129	LS	—	No	Yes
1994-1999	Gibson et al¹²¹	United States	27	27	OS,LS	24/27 (89)	No	No
1993-1999	Trias et al¹²²	Spain	111	48	LS	37/46 (80)	No	Yes
2001
1974-1994	Portielje et al⁸	Netherlands	152	78	OS	51/60 (85)	No	Yes
1960-1999	Leung et al¹²³	Hong Kong	220	37	OS	—	Yes	No
1992-1997	Katkhouda et al¹²⁴	United States, France	67	67	LS	52/67 (78)	Yes	Yes
—	Fabris et al⁵	Italy	61	61	—	31/54 (57)	Yes	No
1987-1994	Bussel et al¹²⁵	United States, Canada	61	24	OS	—	Yes	No
1987-1998	Choi et al¹²⁶	Korea	107	79	OS,LS	—	Yes	No
2002
1984-2000	Pamuk et al¹²⁷	Turkey	321	76	—	33/57 (58)	No	No
1995-1998	Chan et al¹²⁸	Australia	31	20	LS	—	No	Yes
1991-2000	Gadenstatter et al¹²⁹	Austria	92	38	OS	33/38 (87)	No	Yes
—	Szold et al¹³⁰	Israel	104	104	LS	82/102 (80)	No	Yes
1985-1998	Kumar et al¹³¹	United States	140	140	OS,LS	78/106 (74)	Yes	No
1997-2001	Torelli et al¹³²	Italy	43	23	LS	15/23 (65)	No	Yes
1993-1998	Bresler et al¹³³	France	27	27	LS	18/27 (67)	No	Yes
—	Rossi et al¹³⁴	Italy	25	25	—	14/25 (56)	Yes	No
1991-1998	Delaitre et al¹³⁵	France	209	195	LS	—	No	Yes
2003
1993-1999	Neylon et al⁹	United Kingdom	245	30	—	21/28 (75)	No	No
1983-1996	Srinivasan et al¹³⁶	India	364	71	—	30/59 (51)	Yes	No
1990-2001	Zoghlami-Rintelen et al¹³⁷	Austria	56	48	OS,LS	31/48 (65)	Yes	Yes
1985-1994	Bourgeois et al¹³⁸	France	183	183	OS	159/183 (87)	Yes	Yes
1992-2000	Pace et al¹³⁹	Canada	52	52	LS	—	No	Yes
1988-1993	Schwartz et al⁶	Israel, United States	56	56	OS	32/56 (57)	Yes	Yes
1995-2000	Cordera et al¹⁴⁰	United States	44	44	OS	—	No	Yes
1995-2000	Cordera et al¹⁴⁰	United States	42	42	LS	—	No	Yes
1997-2000	George et al¹⁴¹	United States	70	28	—	15/28 (54)	No	No
1985-1994	Andres et al¹⁴²	France	139	55	OS,LS	33/55 (60)	Yes	No
1996-2002	Knauer et al¹⁴³	United States	101	48	LS	—	No	Yes
2004
1995-2001	Duperier et al¹⁴⁴	United States	67	67	LS	43/67 (64)	Yes	Yes

The 135 case series that were reviewed for this analysis are presented in order of their year of publication. Case series for which accrual data were not available are designated (—). The technique for splenectomy (splx) is designated as os, splenectomy by open laparotomy, or ls, laparoscopic splenectomy. For studies with patient accrual beginning after 1991, the year of the first report of laparoscopic splenectomy for ITP,¹⁸ that did not define the surgical technique, the surgical technique is not specified (—). For studies that accrued patients prior to 1991, splenectomy was assumed to be performed by open laparotomy if the surgical technique was not defined. Articles selected for review had evaluable data for 1 or more of the outcomes of interest: platelet count response, predictors of response, or death and complications caused by splenectomy. When articles could be evaluated for platelet count response, the number and percentage of patients achieving a complete remission is presented with the total number of evaluable patients. Case series that did not describe complete remission are designated (—). In some articles some patients who had splenectomy for ITP were not evaluated for platelet count response because they were not followed or because they were children.

Platelet count response

In 47 case series reporting only adults, 1731 (66%) of 2623 patients had a complete response with a median follow-up of 29 months (range, 1-153 months) (Table 2); 1853 (88%) of 2116 had a complete or partial response. When the median rate of complete response across the 47 individual case series was calculated, rather than combining all patients, the rate of complete response was 67% (range, 37%-100%). In 38 case series that included up to 25% children, the frequency of complete responses was slightly but significantly greater (Table 2): 1775 (72%) of 2463 adults and children had a complete response with a median follow-up of 23 months (range, 3-130 months), 1449 (88%) of 1640 adults and children had a complete or partial response. The median complete response rate across the 38 individual case series of adults and children was also 72% (range, 28%-96%). Platelet count responses were similar when only case series with a median or mean follow-up of at least 5 years after splenectomy were analyzed (Table 2). In 14 case series reporting only adults, 456 (64%) of 707 patients had a complete response with a median follow-up of 7.25 years (range, 5-12.75 years). In 7 case series reporting adults and children, 323 (71%) of 452 patients had a complete response with a median follow-up of 7 years (range, 5-10.83 years). Data from the 9 prospective case series were not different from the retrospective analyses and were, therefore, not reported separately. The frequency of complete responses was not different across the 58 years of patient accrual. The median rate of complete responses in the first 42 case series, published from 1968 to 1994 with patient accrual from 1945 to 1990, was 69% (range, 28%-88%); the median rate of complete responses in the second 43 case series, published from 1995 to 2004 with patient accrual from 1968 to 2001, was 67% (range, 37%-100%) (Table 1).

Table 2.

Platelet count response following splenectomy for ITP

	Case series of adults	Case series of adults and children
All case series^*
No. of case series	47	38
No. patients with complete response/total no. evaluable patients (%)	1731/2623 (66)	1775/2463 (72)
Case series with at least 5 y of follow-up†
No. of case series	14	7
No. patients with complete response/total no. evaluable patients (%)	456/707 (64)	323/452 (71)

	Case series of adults	Case series of adults and children
All case series^*
No. of case series	47	38
No. patients with complete response/total no. evaluable patients (%)	1731/2623 (66)	1775/2463 (72)
Case series with at least 5 y of follow-up†
No. of case series	14	7
No. patients with complete response/total no. evaluable patients (%)	456/707 (64)	323/452 (71)

Complete response rates for all case series reporting adults only and articles reporting both adults and children, and for case series with a median or mean patient follow-up of at least 5 years. Data from case series reporting open laparotomy and laparoscopy are combined for this analysis.

*

P < .001, comparing case series of adults to case series of adults and children.

†

P = .014, comparing case series of adults to case series of adults and children.

The complete response rates in case series of adults only and of adults and children did not correlate with the duration of follow-up (Figure 2). There was also no correlation between the complete response rates and duration of follow-up when all 85 case series, combining case series of adults only with case series of adults plus children, were analyzed together (r_s = -0.074; P = .50).

Figure 2.

View large Download PPT

Relationship of complete response rates with median or mean duration of patient follow-up. (A) Data for the 47 case series reporting adults only with follow-up for 1 to 153 months (median, 29 months). (B) Data for the 38 case series reporting adults and children with follow-up for 3 to 130 months (median, 23 months).

Relapse rates following splenectomy were evaluable in 48 of the 85 case series reporting 3355 patients. When case series reporting only adults were analyzed together with case series reporting adults and children, relapses occurred in a median 15% of patients (range, 0%-51%) with a median follow-up of 33 months (range, 3-153 months). The relapse rate appeared to increase with duration of follow-up, but the correlation did not reach statistical significance (r_s = 0.275, P = .059). Relapse rates were also not significantly correlated with duration of follow-up when case series reporting only adults and case series reporting adults and children were evaluated separately.

Predictors of response

Demographic, clinical, and laboratory variables that have been studied for their ability to predict response to splenectomy are distinguished as preoperative and postoperative prediction variables (Table 3).

Table 3.

Prediction of response to splenectomy

Variable	Predictive no. articles (no. patients)	Not predictive no. articles (no. patients)	Not interpretable no. articles (no. patients)
Preoperative variables
Age	14 (1185)^{5,35,46,47,56,67,69,73,82,93,124,131,142,144}	14 (913)^{6,45,53,79,81,86,110,112,116,117,126,136-138}	3 (287)^33,61,68
Sex	1 (26)¹¹⁶	22 (1830)^{5,6,35,45-47,53,56,61,67-69,79,81,82,93,117,124,126,131,136,138}	—
Duration of illness	2 (86)^20,47	27 (2346)^{5,6,25,33,43,45,46,49,53,61,67,69,79,81,82,86,93,110,112,116,117,124,126,131,136,137,144}	1 (71)³⁰
Response to steroids	11 (923)^{29,33,44,46,52,61,79,81,117,123,136}	19 (1424)^{5,35,46,53,55,67,69,82,86,93,94,106,110,112,116,124,126,131,144}	1 (35)²⁵
Response to IVIg	3 (154)^77,93,126	7 (333)^{5,98,112,117,125,134,144}	—
Response to anti-(Rh) D	—	—	1 (24)¹²⁵
Preoperative platelet count	4 (264)^43,81,93,144	9 (750)^{5,22,33,69,73,116,131,136,138}	—
Severity of bleeding	1 (138)⁶⁹	2 (121)^5,124	—
Site of platelet sequestration	6 (566)^{32,60,73,80,94,138}	8 (480)^{31,47,66,67,79,109,117,134}	1 (24)³³
Platelet lifespan/turnover	1 (19)⁶⁶	9 (670)^{33,45,47,56,67,80,109,134,138}	—
Platelet associated IgG antiplatelet antibody	—	11 (762)^{44,45,56,66,67,72,79,93,117,126,131}	1 (94)¹¹⁰
Megakaryocyte hyperplasia	1 (70)⁹⁴	—	—
Postoperative variables
Postoperative platelet count	10 (868)^{22,67,79,111,117,126,131,136}-¹³⁸	7 (357)^{35,43,46,53,86,124,134}	6 (706)^{33,45,47,52,61,69}
Postoperative platelet count recovery rate	1 (98)⁴³	1 (37)³⁵	—
Spleen weight or size	—	6 (333)^{22,35,46,93,131,144}	—
Splenic follicle hyperplasia	1 (70)⁹⁴	—	—

Variable	Predictive no. articles (no. patients)	Not predictive no. articles (no. patients)	Not interpretable no. articles (no. patients)
Preoperative variables
Age	14 (1185)^{5,35,46,47,56,67,69,73,82,93,124,131,142,144}	14 (913)^{6,45,53,79,81,86,110,112,116,117,126,136-138}	3 (287)^33,61,68
Sex	1 (26)¹¹⁶	22 (1830)^{5,6,35,45-47,53,56,61,67-69,79,81,82,93,117,124,126,131,136,138}	—
Duration of illness	2 (86)^20,47	27 (2346)^{5,6,25,33,43,45,46,49,53,61,67,69,79,81,82,86,93,110,112,116,117,124,126,131,136,137,144}	1 (71)³⁰
Response to steroids	11 (923)^{29,33,44,46,52,61,79,81,117,123,136}	19 (1424)^{5,35,46,53,55,67,69,82,86,93,94,106,110,112,116,124,126,131,144}	1 (35)²⁵
Response to IVIg	3 (154)^77,93,126	7 (333)^{5,98,112,117,125,134,144}	—
Response to anti-(Rh) D	—	—	1 (24)¹²⁵
Preoperative platelet count	4 (264)^43,81,93,144	9 (750)^{5,22,33,69,73,116,131,136,138}	—
Severity of bleeding	1 (138)⁶⁹	2 (121)^5,124	—
Site of platelet sequestration	6 (566)^{32,60,73,80,94,138}	8 (480)^{31,47,66,67,79,109,117,134}	1 (24)³³
Platelet lifespan/turnover	1 (19)⁶⁶	9 (670)^{33,45,47,56,67,80,109,134,138}	—
Platelet associated IgG antiplatelet antibody	—	11 (762)^{44,45,56,66,67,72,79,93,117,126,131}	1 (94)¹¹⁰
Megakaryocyte hyperplasia	1 (70)⁹⁴	—	—
Postoperative variables
Postoperative platelet count	10 (868)^{22,67,79,111,117,126,131,136}-¹³⁸	7 (357)^{35,43,46,53,86,124,134}	6 (706)^{33,45,47,52,61,69}
Postoperative platelet count recovery rate	1 (98)⁴³	1 (37)³⁵	—
Spleen weight or size	—	6 (333)^{22,35,46,93,131,144}	—
Splenic follicle hyperplasia	1 (70)⁹⁴	—	—

Numbers of articles (with the sum of reported patients in parentheses) that included analysis of variables that were predictive, not predictive, or not interpretable for the response to splenectomy. The assignment of articles to these 3 categories is described in “Methods.” If there were no articles for a variable in a given category, this was designated (—). When predictive associations were reported, responses were associated with younger age, male sex, shorter duration of illness, previous response to steroids or intravenous immunoglobulin (IVIg), higher preoperative platelet counts, less severe bleeding, platelet sequestration predominantly localized to the spleen, decreased platelet lifespan with increased platelet turnover, no megakaryocyte hyperplasia, greater and more rapidly increasing postoperative platelet counts, and the presence of splenic follicle hyperplasia. Data from case series reporting open laparotomy and laparoscopy and data from case series of adults only and adults plus children were combined for this analysis.

Among variables that are available prior to splenectomy, age at the time of splenectomy most often correlated with response, with 14 case series reporting that younger age was associated with a better response. In 7 of these 14 case series, the mean or median age of the groups of patients with the better outcome was significantly less than the age of the groups of patients with the worse outcome. In these 7 studies there was no specific age cut point; the mean or median age of the patients with better outcomes was 32 to 51 years, compared with 40 to 73 years in the groups with less good outcomes. In the other 7 case series, responses of patients above and below specific ages—30 to 60 years in the different case series—were compared, and the younger group had a better outcome. In all 7 case series that analyzed multiple variables in a multivariate model,^{5,67,69,82,124,131,144} age was an independent variable for predicting response. Because of the different methods and different definitions of response used in these articles, no summary statement about the relation of age to response is possible. Data could not be pooled to provide estimates of response according to different age categories. Even though younger patients were demonstrated to have more frequent responses in these 14 studies, most of the older patients also responded to splenectomy. Seventeen other case series reported no correlation of age with response, or the data were not interpretable.

Previous response to glucocorticoids was correlated with response in 11 case series, but in all 7 case series that analyzed multiple variables in a multivariate model,^{5,67,69,82,124,131,144} previous response to glucocorticoids was not an independent variable for predicting response. Previous response to intravenous immunoglobulin correlated with response in only 3 of 7 case series. An influential report that described response to intravenous immunoglobulin as a sensitive (100%) and specific (82%) marker for response to splenectomy was not included in our review because 9 (30%) of the 30 patients were children.¹⁴⁵ Only one article reported data on patients who failed both glucocorticoids and intravenous immunoglobulin: 7 of 75 patients failed both treatments; 6 of these 7 patients responded to splenectomy.¹¹²

The principal site of platelet sequestration, determined by different radioisotope techniques, correlated with response in 6 case series reporting that patients who had predominant splenic sequestration had a better response than patients whose platelet sequestration was predominantly nonsplenic. However, in the one case series that analyzed multiple variables in a multivariate model and included analysis of platelet sequestration,⁶⁷ it was not an independent variable for predicting response after taking age into consideration. Also, 9 other case series reported no correlation of the site of platelet sequestration with response, or the data were not interpretable. There was no apparent difference between the reports describing a significant predictive value and those describing no predictive value regarding the year of the report, the isotope used (⁵¹Cr or ¹¹¹In), the source of the platelets (autologous or homologous), or the measurement technique. Even among the reports describing a better response to splenectomy in patients with predominant splenic sequestration of labeled platelets, many patients with nonsplenic sequestration also responded.

Among postoperative prediction variables, the magnitude and rate of the platelet count increase within the first 4 weeks after surgery were often, but inconsistently, reported to correlate with the response at 30 days following splenectomy. No summary statement about the relation of postoperative platelet count recovery to response is possible because the studies reporting a predictive value used different criteria for platelet count levels and time after splenectomy.

Surgical complications

Data are presented separately for laparotomy and laparoscopic splenectomies; case series reporting only adults are combined with case series reporting adults and children. For laparotomy, 81 case series had data for surgical mortality and 35 case series had data for surgical complications. For laparoscopic splenectomy, 29 case series had data for surgical mortality and 19 case series had data for surgical complications. The frequency of death and complications was significantly greater for laparotomy than for laparoscopic splenectomy (Table 4). The earliest reported laparoscopic splenectomy was in 1991.¹⁸ To determine whether the decreased rate of death and complications may only reflect advances in surgical practice, the data for laparoscopic splenectomy were compared with the 5 case series reporting splenectomy by laparotomy that accrued patients beginning in 1991 or subsequently.^{100,102,105,129,140} In these 5 case series, 1 (0.75%) of 134 patients died, a rate of death that is not significantly different from laparoscopic splenectomy (P = .325). To determine whether the decreased rate of death and complications may only reflect patient selection, with laparotomy performed on the more critical patients, the 5 case series that reported results of both laparoscopy and open laparotomy^{100,102,103,105,140} were analyzed for patient characteristics. In 4 of these case series,^{100,102,105,140} there was no indication that the patient groups were different. However, in one case series,¹⁰³ the data suggested that the ITP was more severe in the patients who had splenectomy by open laparotomy.

Table 4.

Death and surgical complications caused by splenectomy for ITP

	Laparotomy	Laparoscopy
Death^*
Articles, no.	81	29
Mortality rate, % (no. patients who died/total no. evaluable patients)	1 (48/4955)	0.2 (3/1301)
Causes of death
Postoperative bleeding, no.	11	1 (intraabdominal)
Gastrointestinal, no.	5	—
Intracranial, no.	5	—
Not specified, no.	1	—
Cardiovascular, no.	10	1 (aortic aneurysm)
Cardiac, no.	7	—
Stroke, no.	2	—
Aortic aneurysm, no.	1	—
Infectious, no.	6	1 (sepsis)
Pneumonia, no.	2	—
Sepsis, no.	2	—
Subdiaphragmatic abscess, no.	1	—
Viral hepatitis, no.	1	—
Venous thromboembolism, no.	5	—
Pancreatitis, no.	3	—
Miscellaneous, no.	3	—
Not reported, no.	10	—
Complications^*
Articles, no.	35	19
Complication rate, % (no. patients with complications/total no. evaluable patients)	12.9 (318/2465)	9.6 (88/921)

	Laparotomy	Laparoscopy
Death^*
Articles, no.	81	29
Mortality rate, % (no. patients who died/total no. evaluable patients)	1 (48/4955)	0.2 (3/1301)
Causes of death
Postoperative bleeding, no.	11	1 (intraabdominal)
Gastrointestinal, no.	5	—
Intracranial, no.	5	—
Not specified, no.	1	—
Cardiovascular, no.	10	1 (aortic aneurysm)
Cardiac, no.	7	—
Stroke, no.	2	—
Aortic aneurysm, no.	1	—
Infectious, no.	6	1 (sepsis)
Pneumonia, no.	2	—
Sepsis, no.	2	—
Subdiaphragmatic abscess, no.	1	—
Viral hepatitis, no.	1	—
Venous thromboembolism, no.	5	—
Pancreatitis, no.	3	—
Miscellaneous, no.	3	—
Not reported, no.	10	—
Complications^*
Articles, no.	35	19
Complication rate, % (no. patients with complications/total no. evaluable patients)	12.9 (318/2465)	9.6 (88/921)

Death and complications from splenectomy. Data are reported separately for open laparotomy and laparoscopic splenectomy. Data from case series of adults only and adults plus children were combined for this analysis. Miscellaneous causes of death included respiratory failure, hepatic or renal failure, and gastric perforation. Not all articles for which mortality could be assessed reported the cause of death or the rate of complications.—indicates that no deaths from this cause were reported.

*

P = .008

For laparotomy, the most common reported cause of death was bleeding, accounting for 11 (29%) of the 38 patients for whom a cause of death was reported (Table 4). Intraabdominal bleeding with stroke was the cause of death of 1 of 3 patients who died with laparoscopic splenectomy. Perioperative platelet counts were reported for 5 of the 12 patients who died from bleeding and all were described as less than 16 × 10⁹/L¹⁰³ or less than 20 × 10⁹/L.³⁸ The clinical importance of complications, such as prolonged hospitalization, readmission to the hospital, or requirement for additional intervention, could not be assessed in most articles.

Discussion

This systematic review documents that splenectomy is an effective treatment for ITP, with two thirds of patients achieving durable complete responses. These results are consistent across 58 years and the 29 countries contributing case series to this review. Because our definitions of partial response and no response could have included patients who had increased platelet counts and required no further treatment, the data on complete responses may underestimate the benefit of splenectomy.

The durability of the responses is supported by the lack of correlation between the rate of complete responses and the duration of follow-up in 85 case series with follow-up durations of 1 month to more than 12 years (Figure 2). Because relapses of ITP following response to splenectomy do occur, yet the rate of complete responses did not change over time in these case series, the occurrence of relapses may be balanced by the occurrence of late remissions, perhaps related to splenectomy or to other treatments, or perhaps occurring spontaneously. The influence of other treatments could not be assessed in these articles. Two case series suggesting that responses to splenectomy are not durable had follow-up durations of more than 7 years in selected patients,^5,6 longer than most case series that we reviewed. Therefore, it is possible that publication of more case series with longer follow-up will demonstrate a decreasing frequency of complete remissions over time. However, at this time, the published patient data, including analysis of 21 case series with follow-up of more than 5 years, suggest that the response to splenectomy is durable. Although a continuing occurrence of relapses was suggested in many of these case series, our data did not clearly demonstrate increasing rate of relapse with longer follow-up. Perhaps this unexpected observation is related to the fact that each case series is a single point in time and may reflect different methods of follow-up and different definitions of relapse used in the different studies.

Among all of the prediction variables tested that are available before splenectomy, younger age was most often found to be associated with response (Table 3). In all 7 studies that analyzed variables in a multivariate model, younger age was an independent variable for predicting response. Younger age is also suggested as a predictor for better response by the greater frequency of complete remissions in case series that included children than in case series reporting only adults (Table 2). An equal number of studies demonstrated no correlation of age with response to splenectomy. Furthermore among the studies that did demonstrate a correlation, there was no consistent age that distinguished responders from nonresponders.

Six studies measuring the site of platelet sequestration reported a correlation of predominant splenic sequestration with response; however, 8 other studies reported no correlation, and one study was not interpretable (Table 3). Because these studies used different techniques, because the investigators may have had different levels of experience, and because patients with different clinical characteristics may have been studied, it may not be appropriate to consider these 15 reports as equivalent. However, because these assessments are often qualitative, rather than quantitative, reproducibility among different institutions, even with the same technique, may be difficult.

Although it is possible that some combination of preoperative characteristics may better predict the response to splenectomy, many patients without positive predictive characteristics also respond. Because most patients have a good response to splenectomy, the ability to predict the response may be more difficult and less important.

The decision for splenectomy must be carefully balanced by consideration of the potential risks, because the rate of complications following splenectomy is relatively great. Mortality rates of 0.2% and 1.0%, with laparoscopy and open laparotomy, respectively, are similar to the mortality due to bleeding estimated from large case series of patients with severe ITP followed for 5 to 10 years: 2 (1.6%) of 124 patients⁸ and 1 (0.4%) of 245 patients.⁹ However, this comparison may not be appropriate because patients with ITP sufficiently severe to require splenectomy may have a greater risk of death from bleeding than the overall rates reported in these large series. The mortality rate for laparoscopic splenectomy may be more representative of current surgical practice, because assessment of the 5 case series of laparotomy that accrued patients since 1991, the year of the first report of laparoscopic splenectomy, demonstrated no significant difference in mortality from laparoscopy. Although the complication rates of 9.6% and 12.9%, with laparoscopy and open laparotomy, respectively, may seem high, they are consistent with a case series⁸ that described serious complications, resulting in prolonged hospitalization or readmission, in 20 (26%) of 78 patients. These relatively high rates of death and complications, despite advances in anesthesia and surgical care, may be due to the increasing recognition of ITP among older persons,^9,146 the greater risk of surgical complications in older patients,⁸ and the willingness of surgeons to perform surgery in older patients. It is possible that complications with open laparotomy are greater because it may be performed more often in more severely affected patients, when direct visualization of operative bleeding is preferred.

The risks of splenectomy may be greater than described in this systematic review, because we did not evaluate long-term risks of sepsis and thrombosis. The risk of fatal infection attributed to the absence of a spleen has been estimated to be 0.73 per 1000 patient-years¹⁴; in this study of patients with hereditary spherocytosis, 3 of the 4 deaths occurred 18 to 30 years following splenectomy,¹⁴ well beyond the follow-up time for most patients who were analyzed in this review. An increased risk of thrombosis has also been reported for patients following splenectomy,^15-17 but these complications, similar to severe sepsis, may be rare, may be related to multiple risk factors, and may only become apparent many years after splenectomy.^15-17

Because of the risks of splenectomy, intermittent glucocorticoid treatment is often continued with the hope that a remission will eventually occur, or other therapies are considered as an alternative to splenectomy. But the risks of these therapies may be substantial and their benefit is uncertain. Glucocorticoid treatment of even short duration may increase the risk of opportunistic infections, such as aspergillosis.¹⁴⁷ In a large case series,⁸ deaths from infections related to immunosuppressive treatment were more frequent than death as a result of bleeding. For none of these therapies has efficacy been established by prospective controlled studies with clinical outcome measures and long-term follow-up.¹¹ Therefore, alternatives to splenectomy may have similar risk but less benefit.

This systematic review has several weaknesses. The reviewed articles used diverse criteria to evaluate patient characteristics and to report outcomes; therefore, averaging data across studies may not be appropriate. Even the comparison of the results of individual studies, as in our description of predictors of response, may give an inaccurate impression because of different methodologies. Children may have been included in some of the case series that we described as reporting only adults and could have biased descriptions of predictors of response and the durability of responses. The severity of surgical complications could not be quantitatively described. Follow-up duration was often difficult to estimate because of inability to account for all patients in the reported case series. The duration of follow-up may not have been long enough to provide a valid estimate of the rate of relapse and was certainly not long enough to evaluate the risks of overwhelming sepsis and thrombosis that may occur many years after splenectomy.^14-17

The strength of this review is that the comprehensive and critical analysis of all published reports on splenectomy for ITP over 38 years using a defined and reproducible methodology achieves a balance that is not possible in individual case series and selective reviews. These data provide the best current estimate for the benefits and risks of splenectomy. Although surgical risks are important, splenectomy provides effective long-term benefit for adult patients with ITP who do not achieve durable remissions with initial glucocorticoid treatment.

Prepublished online as Blood First Edition Paper, June 24, 2004; DOI 10.1182/blood-2004-03-1168.

Supported by the Daisy Foundation, Glen Ellen, CA

1

Doan CA, Bouroncle BA, Wiseman BK. Idiopathic and secondary thrombocytopenic purpura: clinical study and evaluation of 381 cases over a period of 28 years.

Ann Int Med

.

1960

;

53

:

861

-876.

2

George JN, Woolf SH, Raskob GE, et al. Idiopathic thrombocytopenic purpura: A practice guideline developed by explicit methods for the American Society of Hematology.

Blood

.

1996

;

88

:

3

-40.

3

Cines DB, Blanchette VS. Immune thrombocytopenic purpura.

N Engl J Med

.

2002

;

346

:

995

-1008.

4

British Committee for Standards in Haematology. Guidelines for the investigation and management of idiopathic thrombocytopenic purpura in adults, children and in pregnancy.

Br J Haematol

.

2003

;

120

:

574

-596.

5

Fabris F, Tassan T, Ramon R, et al. Age as the major predictive factor of long-term response to splenectomy in immune thrombocytopenic purpura.

Br J Haematol

.

2001

;

112

:

637

-640.

6

Schwartz J, Leber MD, Gillis S, et al. Long term follow-up after splenectomy performed for immune thrombocytopenic purpura (ITP).

Am J Hematol

.

2003

;

72

:

94

-98.

7

Bell WR. Long-term outcome of splenectomy for idiopathic thrombocytopenic purpura.

Semin Hematol

.

2000

;

37

(Suppl 1):

22

-25.

8

Portielje JEA, Westendorp RGJ, Kluin-Nelemans HC, Brand A. Morbidity and mortality in adults with idiopathic thrombocytopenic purpura.

Blood

.

2001

;

97

:

2549

-2554.

9

Neylon AJ, Saunders PWG, Howard MR, Proctor SJ, Taylor PRA. Clinically significant newly presenting autoimmune thrombocytopenic purpura in adults: a prospective study of a population-based cohort of 245 patients.

Br J Haematol

.

2003

;

122

:

966

-974.

10

Cook DJ, Mulrow CD, Haynes RB. Systematic reviews: synthesis of best evidence for clinical decisions.

Ann Int Med

.

1997

;

126

:

376

-380.

11

Vesely SK, Perdue JJ, Rizvi MA, Terrell DR, George JN. Management of adult patients with idiopathic thrombocytopenic purpura after failure of splenectomy. A systematic review.

Ann Int Med

.

2004

;

140

:

112

-120.

12

Reid MM. Chronic idiopathic thrombocytopenic purpura: incidence, treatment, and outcome.

Arch Dis Child

.

1995

;

72

:

125

-128.

13

Bolton-Maggs PHB, Moon I. Assessment of UK practice for management of acute childhood idiopathic thrombocytopenic purpura against published guidelines.

Lancet

.

1997

;

350

:

620

-623.

14

Schilling RF. Estimating the risk for sepsis after splenectomy in hereditary spherocytosis.

Ann Intern Med

.

1995

;

122

:

187

-188.

15

Robinette CD, Fraumeni JF. Splenectomy and subsequent mortality in veterans of the 1939-1945 war.

Lancet

.

1977

;

2

:

127

-129.

16

Schilling RF. Spherocytosis, splenectomy, strokes, and heart attacks.

Lancet

.

1997

;

350

:

1677

-1678.

17

Hoeper MM, Niedermeyer J, Hoffmeyer F, Flemming P, Fabel H. Pulmonary hypertension after splenectomy?

Ann Int Med

.

1999

;

130

:

506

-509.

18

Delaitre B, Maignien B. Splenectomy by the coelioscopic approach [letter].

Presse Med

.

1991

;

20

:

44

.

19

Kwietniak JK. Late results of splenectomy in the treatment of some blood diseases.

Pol Med J

.

1966

;

5

:

1109

-1118.

20

Wilde RC, Ellis LD, Cooper WM. Splenectomy for chronic idiopathic thrombocytopenic purpura.

Arch Surg

.

1967

;

95

:

344

-350.

21

Nordoy A, Neset G. Splenectomy in hematologic diseases.

Acta Med Scand

.

1968

;

183

:

117

-126.

22

Orringer E, Lewis M, Silverberg J, Rosenbach L. Splenectomy in chronic thrombocytopenic purpura.

J Chron Dis

.

1970

;

23

:

117

-122.

23

Horta EO, Maldonado N, Velez-Garcia E. Idiopathic thrombocytopenic purpura in adults.

Bol Assoc Med P Rico

.

1970

;

62

:

92

-100.

24

Hodam RP. The risk of splenectomy.

Am J Surg

.

1970

;

119

:

709

-713.

25

Thompson RL, Moore RA, Hess CE, Wheby MS, Leavell BS. Idiopathic thrombocytopenic purpura.

Arch Intern Med

.

1972

;

130

:

730

-734.

26

JiJi RM, Firozvi T, Spurling CL. Chronic idiopathic thrombocytopenic purpura.

Arch Intern Med

.

1973

;

132

:

380

-383.

27

Ogawa Y, Kobayashi M, Saku M, et al. Late results of splenectomy in hematologic disorders.

Jpn J Surg

.

1974

;

4

:

21

-28.

28

Cowick D, Leon W. Therapeutic splenectomy.

Am Surg

.

1975

;

41

:

567

-570.

29

Brennan MF, Rappeport JM, Moloney WC, Wilson RE. Correlation between response to corticosteroids and splenectomy for adult thrombocytopenic purpura.

Am J Surg

.

1975

;

129

:

490

-492.

30

MacPherson AIS, Richmond J. Planned splenectomy in treatment of idiopathic thrombocytopenic purpura.

BMJ

.

1975

;

1

:

64

-66.

31

Ries CA. Platelet kinetics in autoimmune thrombocytopenia: relation between splenic platelet sequestration and response to splenectomy.

Ann Int Med

.

1977

;

86

:

194

-195.

32

Burger T, Schmelczer M, Kett K, Kutas J. Immune thrombocytolytic purpura (ITP): a diagnostic and therapeutic survey of 86 cases with regard to the results of splenectomy and conservative therapy.

Acta Med Acad Sci Hung

.

1978

;

35

:

213

-224.

33

Ikkala E, Kivilaakso E, Kotilainen M, Hastbacka J. Treatment of idiopathic thrombocytopenic purpura in adults.

Ann Clin Res

.

1978

;

10

:

83

-86.

34

Laws HL, Burlingame MW, Carpenter JT, Prchal JT, Conrad ME. Splenectomy for hematologic disease.

Surg Gynecol Obstet

.

1979

;

149

:

509

-512.

35

DiFino SM, Lachant NA, Kirshner JJ, Gottlieb AJ. Adult idiopathic thrombocytopenic purpura clinical findings and response to therapy.

Am J Med

.

1980

;

69

:

430

-442.

36

Butoianu E. Present-day problems of diagnosis and treatment in the idiopathic thrombocytopenic purpura.

Med Interne

.

1980

;

18

:

15

-24.

37

Picozzi VJ, Roeske WR, Creger WP. Fate of therapy failures in adult idiopathic thrombocytopenic purpura.

Am J Med

.

1980

;

69

:

690

-694.

38

Schwartz SI, Hoepp LM, Sachs S. Splenectomy for thrombocytopenia.

Surgery

.

1980

;

88

:

497

-506.

39

Mintz SJ, Petersen SR, Cheson B, Cordell LJ, Richards RC. Splenectomy for immune thrombocytopenic purpura.

Arch Surg

.

1981

;

116

:

645

-650.

40

Pawelski S, Konopka L, Zdziechowska H. Recurrence of thrombocytopenia in patients splenectomized for idiopathic thrombocytopenic purpura.

Blut

.

1981

;

43

:

355

-360.

41

Rubins JM, Woll JE. Immune thrombocytopenic purpura need for an individualized approach.

N Y State J Med

.

1981

;

81

:

1743

-1747.

42

Ly B, Albrechtsen D. Therapeutic splenectomy in hematologic disorders.

Acta Med Scand

.

1981

;

209

:

21

-29.

43

Gruenberg JC, Block MA, Van Slyck EJ, Abraham JP. Chronic idiopathic thrombocytopenic purpura. Effective preoperative preparation and long-term results of splenectomy.

Henry Ford Hosp Med J

.

1982

;

30

:

59

-64.

44

Kernoff LM, Malan E. Platelet antibody levels do not correlate with response to therapy in idiopathic thrombocytopenic purpura.

Br J Haematol

.

1983

;

53

:

559

-562.

45

Kayser W, Mueller-Eckhardt C, Mueller-Eckhardt G. The value of platelet-associated IgG in predicting the efficacy of splenectomy in autoimmune thrombocytopenia.

Scand J Haematol

.

1983

;

30

:

30

-35.

46

Rocco MV, Stein RS. Prognostic factors for splenectomy response in adult idiopathic thrombocytopenic purpura.

South Med J

.

1984

;

77

:

983

-987.

47

den Ottolander GJ, Gratama JW, deKoning J, Brand A. Long-term follow-up study of 168 patients with immune thrombocytopenia.

Scand J Haematol

.

1984

;

32

:

101

-110.

48

Salky B, Katsoyannis G, Aufses AH Jr, Kreel I. Splenectomy for chronic idiopathic thrombocytopenic purpura.

Mt Sinai J Med

.

1984

;

51

:

287

-289.

49

Pizzuto J, Ambriz R. Therapeutic experience on 934 adults with idiopathic thrombocytopenic purpura: multicentric trial of the cooperative Latin American group on hemostasis and thrombosis.

Blood

.

1984

;

64

:

1179

-1183.

50

Musser G, Lazar G, Hocking W, Busuttil RW. Splenectomy for hematologic disease. The UCLA experience with 306 patients.

Ann Surg

.

1984

;

200

:

40

-45.

51

Schwartz SI. Splenectomy for thrombocytopenia.

World J Surg

.

1985

;

9

:

416

-421.

52

Yasunaga K. Clinical aspects of idiopathic thrombocytopenic purpura in Japan and evaluation of immunoglobulin therapy.

Tokai J Exp Clin Med

.

1986

;

11

:

179

-196.

53

Kochupillai V, Nundy S, Sharma S. Idiopathic thrombocytopenic purpura in adults: response to corticosteroids and splenectomy.

J Assoc Physicians India

.

1986

;

34

:

555

-558.

54

Malmaeus J, Akre T, Adama HO, Hagberg H. Early postoperative course following elective splenectomy in haematological diseases: a high complication rate in patients with myeloproliferative disorders.

Br J Surg

.

1986

;

73

:

720

-723.

55

Jacobs P, Wood L, Dent DM. Results of treatment in immune thrombocytopenia.

QJM

.

1986

;

226

:

153

-165.

56

Akwari OE, Itani KMF, Coleman RE, Rosse WF. Splenectomy for primary and recurrent immune thrombocytopenic purpura.

Ann Surg

.

1987

;

206

:

529

-541.

57

Lee W, Liaw K, Chen K, et al. Therapeutic splenectomy for hematological diseases.

J Formos Med Assoc

.

1987

;

86

:

152

-157.

58

Dawson AA, Jones PF, King DJ. Splenectomy in the management of haematological disease.

Br J Surg

.

1987

;

74

:

353

-357.

59

Lang JM, Amaral D, Audhuy B, et al. High dose intravenous IgG followed by splenectomy versus splenectomy alone in idiopathic thrombocytopenic purpura refractory to steroids.

Nouv Rev Fr Hematol

.

1987

;

29

:

285

-287.

60

Russo D, Gugliotta L, Mazzucconi MG, et al. Long-term results of splenectomy in adult chronic idiopathic thrombocytopenic purpura.

Haematologica

.

1987

;

72

:

445

-449.

61

Coon WW. Splenectomy for idiopathic thrombocytopenic purpura.

Surg Gynecol Obstet

.

1987

;

164

:

225

-229.

62

Wilhelm MC, Jones RE, McGehee R, et al. Splenectomy in hematologic disorders the ever-changing indications.

Ann Surg

.

1988

;

207

:

581

-589.

63

Grant IR, Parsons SW, Johnstone JM, Wood JK. Elective splenectomy in haematological disorders.

Ann R Coll Surg Engl

.

1988

;

70

:

29

-33.

64

Wanachiwanawin W, Visudhiphan S, Piankijagum A, Vatanavicharn S. Serious complications following treatment of chronic idiopathic thrombocytopenic purpura.

Postgrad Med J

.

1988

;

64

:

426

-430.

65

Guthrie TH, Brannan DP, Prisant LM. Idiopathic thrombocytopenic purpura in the older adult patient.

Am J Med Sci

.

1988

;

296

:

17

-21.

66

Siegel RS, Rae JL, Barth S, et al. Platelet survival and turnover: important factors in predicting response to splenectomy in immune thrombocytopenic purpura.

Am J Hematol

.

1989

;

30

:

206

-212.

67

Fenaux P, Caulier MT, Hirschauer C, et al. Reevaluation of the prognostic factors for splenectomy in chronic idiopathic thrombocytopenic purpura (ITP): a report on 181 cases.

Eur J Haematol

.

1989

;

42

:

259

-264.

68

Shaw JHF, Clark MA. Splenectomy for immune thrombocytopenic purpura: Auckland experience 1979-1987.

Aust N Z J Surg

.

1989

;

59

:

123

-126.

69

Julia A, Araguas C, Rossello J, et al. Lack of useful clinical predictors of response to splenectomy in patients with chronic idiopathic thrombocytopenic purpura.

Br J Haematol

.

1990

;

76

:

250

-255.

70

Johansson T, Bostrom H, Sjodahl R, Ihse I. Splenectomy for haematological disease.

Acta Chir Scand

.

1990

;

156

:

83

-86.

71

Centurioni R, Braianzoni F, Olivieri A, et al. Treatment of autoimmune thrombocytopenic purpura.

Acta Haematol Polonica

.

1990

;

21

:

139

-143.

72

Nieminen UK. Clinical value of a direct platelet suspension immunofluorescence test in adult idiopathic thrombocytopenic purpura.

Eur J Haematol

.

1990

;

44

:

145

-149.

73

Najean Y, Dufour V, Rain JD, Toubert ME. The site of platelet destruction in thrombocytopenic purpura as a predictive index of the efficacy of splenectomy.

Br J Haematol

.

1991

;

79

:

271

-276.

74

Hoefer RA, Scullin DC, Silver LF, Weakley SD. Splenectomy for hematologic disorders: a 20 year experience.

J Ky Med Assoc

.

1991

;

89

:

446

-449.

75

MacRae HM, Yakimets WW, Reynolds T. Perioperative complications of splenectomy for hematologic disease.

Can J Surg

.

1992

;

35

:

432

-436.

76

Ketley NJ, Mills MJ, Traub NE, Brown AA. Haematological splenectomy. Changing indications and complications.

Clin lab Haemat

.

1992

;

14

:

179

-188.

77

Chirletti P, Cardi M, Barillari P, et al. Surgical treatment of immune thrombocytopenic purpura.

World J Surg

.

1992

;

16

:

1001

-1005.

78

Dan K, Gomi S, Kuramoto A, Maekawa T, Nomura T. A multicenter prospective study on the treatment of chronic idiopathic thrombocytopenic purpura.

Int J Hematol

.

1992

;

55

:

287

-292.

79

Naouri A, Feghali B, Chabal J, et al. Results of splenectomy for idiopathic thrombocytopenic purpura. Review of 72 cases.

Acta Haematol

.

1993

;

89

:

200

-203.

80

Lamy T, Moisan A, Dauriac C, et al. Splenectomy in idiopathic thrombocytopenic purpura: its correlation with the sequestration of autologous indium-111-labeled platelets.

J Nucl Med

.

1993

;

34

:

182

-186.

81

Wanachiwanawin W, Visudhiphan S, Pinankijagum A, Vatanavicharn S. Therapy of chronic idiopathic thrombocytopenic purpura in adults: experiences from Thailand.

Southeast Asian J Trop Med Public Health

.

1993

;

24

:

71

-75.

82

Schiavotto C, Rodeghiero F. Twenty year experience with treatment of idiopathic thrombocytopenic purpura in a single department: results in 490 cases.

Haematologica

.

1993

;

78

:

22

-28.

83

Ben-Yehuda D, Gillis S, Eldor A, Israeli ITP Study Group. Clinical and therapeutic experience in 712 Israeli patients with idiopathic thrombocytopenic purpura.

Acta Haematol

.

1994

;

91

:

1

-6.

84

Emmermann A, Zornig C, Peiper M, Weh HJ, Broelsch CE. Laparoscopic splenectomy.

Surg Endosc

.

1995

;

9

:

924

-927.

85

Linares M, Cerveró A, Colomina P, et al. Chronic idiopathic thrombocytopenic purpura in the elderly.

Acta Haematol

.

1995

;

93

:

80

-82.

86

Stasi R, Stipa E, Masi M, et al. Long-term observation of 208 adults with chronic idiopathic thrombocytopenic purpura.

Am J Med

.

1995

;

98

:

436

-442.

87

Aksnes J, Abdelnoor M, Mathisen O. Risk factors associated with mortality and morbidity after elective splenectomy.

Eur J Surg

.

1995

;

161

:

253

-258.

88

Gigot J, Legrand M, Cadiere G, et al. Is laparoscopic splenectomy a justified approach in hematologic disorders? Preliminary results of a prospective multicenter study.

Int Surg

.

1995

;

80

:

299

-303.

89

Hashizume M, Ohta M, Kishihara F, et al. Laparoscopic splenectomy for idiopathic thrombocytopenic purpura: comparison of laparoscopic surgery and conventional open surgery.

Surg Laparosc Endosc

.

1996

;

6

:

129

-135.

90

Brunt LM, Langer JC, Quasebarth MA, Whitman ED. Comparative analysis of laparoscopic versus open splenectomy.

Am J Surg

.

1996

;

172

:

596

-599.

91

Flowers JL, Lefor AT, Steers J, et al. Laparoscopic splenectomy in patients with hematologic diseases.

Ann Surg

.

1996

;

224

:

19

-28.

92

Jameson JS, Thomas WM, Dawson S, Wood JK, Johnstone JM. Splenectomy for hematological disease.

J R Coll Surg Edinb

.

1996

;

41

:

307

-311.

93

Shiino Y, Takahashi N, Okamoto T, et al. Surgical treatments of chronic idiopathic thrombocytopenic purpura and prognostic factors for splenectomy.

Int Surg

.

1996

;

81

:

140

-143.

94

Winde G, Schmid KW, Lügering N, et al. Results and prognostic factors of splenectomy in idiopathic thrombocytopenic purpura.

J Am Coll Surg

.

1996

;

183

:

565

-574.

95

Kitano S, Yoshida T, Bandoh T, Shuto K, Ninomiya K. Laparoscopic splenectomy.

Ann Acad Med Singapore

.

1996

;

25

:

657

-659.

96

Zamir O, Szold A, Matzner Y, et al. Laparoscopic splenectomy for immune thrombocytopenic purpura.

J Laparoendosc Surg

.

1996

;

6

:

301

-304.

97

Watson DI, Coventry BJ, Chin T, Gill PG, Malycha P. Laparoscopic versus open splenectomy for immune thrombocytopenic purpura.

Surgery

.

1997

;

121

:

18

-22.

98

Schneider P, Wehmeier A, Schneider W. High-dose intravenous immune globulin and the response to splenectomy in patients in patients with idiopathic thrombocytopenic purpura.

N Eng J Med

.

1997

;

337

:

1087

-1088.

99

Bohner H, Tirier C, Rotzscher VM, Heit W. Indications for and results of splenectomy in different hematological disorders.

Lagenbecks Arch Chir

.

1997

;

382

:

79

-82.

100

Glasgow RE, Yee LF, Mulvihill SJ. Laparoscopic splenectomy.

Surg Endosc

.

1997

;

11

:

108

-112.

101

Mittelman M, Kyzer S, Zeidman A, et al. Splenectomy for haematological disease—a single institution experience.

Haematologia

.

1997

;

28

:

185

-198.

102

Friedman RL, Hiatt JR, Korman JL, et al. Laparoscopic or open splenectomy for hematologic disease: which approach is superior?

J Am Coll Surg

.

1997

;

185

:

49

-54.

103

Lozano-Salazar RR, Herrera MF, Vargas-Vorackova F, Lopez-Karpovitch X. Laparoscopic versus open splenectomy for immune thrombocytopenic purpura.

Am J Surg

.

1998

;

176

:

366

-369.

104

Lord RV, Coleman MJ, Milliken ST. Splenectomy for HIV-related immune thrombocytopenia—comparison with results of splenectomy for non-HIV immune thrombocytopenic purpura.

Arch Surg

.

1998

;

133

:

205

-210.

105

Yuan R, Chen S, Lee W, Yu S. Advantages of laparoscopic splenectomy for splenomegaly due to hematologic diseases.

J Formos Med Assoc

.

1998

;

97

:

485

-489.

106

Harold KL, Schlinkert RT, Mann DK, et al. Long-term results of laparoscopic splenectomy for immune thrombocytopenic purpura.

Mayo Clin Proc

.

1999

;

74

:

37

-39.

107

Shimomatsuya T, Horiuchi T. Laparoscopic splenectomy for treatment of patients with idiopathic thrombocytopenic purpura.

Surg Endosc

.

1999

;

13

:

563

-566.

108

Brody FJ, Chekan EG, Pappas TN, Eubanks WS. Conversion factors for laparoscopic splenectomy for immune thrombocytopenic purpura.

Surg Endosc

.

1999

;

13

:

789

-791.

109

Louwes H, Zeinali Lathori OA, Vellenga E, de Wolf JM. Platelet kinetic studies in patients with idiopathic thrombocytopenic purpura.

Am J Med

.

1999

;

106

:

430

-433.

110

Mazzucconi MG, Arista MC, Peraino M, et al. Long-term follow-up of autoimmune thrombocytopenic purpura (ATP) patients submitted to splenectomy.

Eur J Haematol

.

1999

;

62

:

219

-222.

111

Chung C, Lee WJ, Choi JS, et al. Laparoscopic splenectomy for immune thrombocytopenic purpura—long term result of 40 laparoscopic splenectomies.

Yonsei Med J

.

1999

;

40

:

578

-582.

112

Ruivard M, Caulier MT, Vantelon JM, et al. The response to high-dose intravenous immunoglobulin or steroids is not predictive of outcome after splenectomy in adults with autoimmune thrombocytopenic purpura.

Br J Haematol

.

1999

;

105

:

1130

-1132.

113

Stanton CJ. Laparoscopic splenectomy for idiopathic thrombocytopenic purpura (ITP).

Surg Endosc

.

1999

;

13

:

1083

-1086.

114

Donini A, Baccarani U, Terrosu G, et al. Laparoscopic vs open splenectomy in the management of hematologic diseases.

Surg Endosc

.

1999

;

13

:

1220

-1225.

115

Tanoue K, Hashizume M, Morita M, et al. Results of laparoscopic splenectomy for immune thrombocytopenic purpura.

Am J Surg

.

1999

;

177

:

222

-226.

116

Vecchio R, Cacciola E, Cacciola RR, et al. Predictive factors of response to splenectomy in adult chronic idiopathic thrombocytopenic purpura.

Int Surg

.

2000

;

85

:

252

-256.

117

Radaelli F, Faccini P, Goldaniga M, et al. Factors predicting response to splenectomy in adult patients with idiopathic thrombocytopenic purpura.

Haematologica

.

2000

;

85

:

1040

-1044.

118

Bagdasarian RW, Bolton JS, Bowen JC, Fuhrman GM, Richardson WS. Steep learning curve of laparoscopic splenectomy.

J Laparoendosc Adv Surg Tech

.

2000

;

10

:

319

-323.

119

Wani NA, Parray FQ. Therapeutic splenectomy in immune thrombocytopenic purpura.

World J Surg

.

2000

;

24

:

92

-94.

120

Park AE, Birgisson G, Mastrangelo MJ, Marcaccio MJ, Witzke DB. Laparoscopic splenectomy: outcomes and lessons learned from over 200 cases.

Surgery

.

2000

;

128

:

660

-667.

121

Gibson M, Sehon JK, White S, Zibari GB, Johnson LW. Splenectomy for idiopathic thrombocytopenic purpura: a five-year retrospective review.

Am Surg

.

2000

;

66

:

952

-954.

122

Trias M, Targarona EM, Espert JJ, et al. Impact of hematological diagnosis on early and late outcome after laparoscopic splenectomy.

Surg Endosc

.

2000

;

14

:

556

-560.

123

Leung AYH, Chim CS, Kwong YL, et al. Clinicopathologic and prognostic features of chronic idiopathic thrombocytopenic purpura in adult Chinese patients: an analysis of 220 cases.

Ann Hematol

.

2001

;

80

:

384

-386.

124

Katkhouda N, Grant SW, Mavor E, et al. Predictors of response after laparoscopic splenectomy for immune thrombocytopenic purpura.

Surg Endosc

.

2001

;

15

:

484

-488.

125

Bussel JB, Kaufmann CP, Ware RE, Woloski BMR. Do the acute platelet responses of patients with immune thrombocytopenic purpura (ITP) to IV anti-D and to IV gammaglobulin predict response to subsequent splenectomy?

Am J Hematol

.

2001

;

67

:

27

-33.

126

Choi CW, Kim BS, Seo JH, et al. Response to high-dose intravenous immune globulin as a valuable factor predicting the effect of splenectomy in chronic idiopathic thrombocytopenic purpura patients.

Am J Hematol

.

2001

;

66

:

197

-202.

127

Pamuk GE, Pamuk ON, Baslar Z, et al. Overview of 321 patients with idiopathic thrombocytopenic purpura: retrospective analysis of the clinical features and response to therapy.

Ann Hematol

.

2002

;

81

:

436

-440.

128

Chan SW, Hensman C, Waxman BP, et al. Technical developments and a team approach leads to an improved outcome: lessons learnt implementing laparoscopic splenectomy.

Aust N Z J Surg

.

2002

;

72

:

523

-527.

129

Gadenstatter M, Lamprecht B, Klinger A, et al. Splenectomy versus medical treatment for idiopathic thrombocytopenic purpura.

Am J Surg

.

2002

;

184

:

606

-610.

130

Szold A, Kais H, Keidar A, et al. Chronic idiopathic thrombocytopenic purpura (ITP) is a surgical disease.

Surg Endosc

.

2002

;

16

:

155

-158.

131

Kumar S, Diehn FE, Gertz MA, Tefferi A. Splenectomy for immune thrombocytopenic purpura: long-term results and treatment of postsplenectomy relapses.

Ann Hematol

.

2002

;

81

:

312

-319.

132

Torelli P, Cavaliere D, Casaccia M, et al. Laparoscopic splenectomy for hematological diseases.

Surg Endosc

.

2002

;

16

:

965

-971.

133

Bresler L, Guerci A, Brunaud L, et al. Laparoscopic splenectomy for idiopathic thrombocytopenic purpura: outcome and long-term results.

World J Surg

.

2002

;

26

:

111

-114.

134

Rossi G, Cattaneo C, Motta M, et al. Platelet kinetic study in patients with idiopathic thrombocytopenic purpura (ITP) refractory or relapsing after corticosteroid treatment.

Hematol J

.

2002

;

3

:

148

-152.

135

Delaitre B, Blezel E, Samama G, et al. Laparoscopic splenectomy for idiopathic thrombocytopenic purpura.

Surg Laparosc Endosc Percutan Tech

.

2002

;

12

:

412

-419.

136

Srinivasan S, Sabapathy K, Bharadwaj TP, Sethuraman S. Role of splenectomy in chronic idiopathic thrombocytopenic purpura.

J Assoc Physicians India

.

2003

;

51

:

159

-162.

137

Zoghlami-Rintelen C, Weltermann A, Bittermann C, et al. Efficacy and safety of splenectomy in adult chronic immune thrombocytopenia.

Ann Hematol

.

2003

;

82

:

290

-294.

138

Bourgeois E, Caulier MT, Delarozee C, et al. Long-term follow-up of chronic autoimmune thrombocytopenic purpura refractory to splenectomy: a prospective analysis.

Br J Haematol

.

2003

;

120

:

1079

-1088.

139

Pace DE, Chiasson PM, Schlachta CM, Mamazza J, Poulin EC. Laparoscopic splenectomy for idiopathic thrombocytopenic purpura (ITP).

Surg Endosc

.

2003

;

17

:

95

-98.

140

Cordera F, Long K, Nagorney DM, et al. Open versus laparoscopic splenectomy for idiopathic thrombocytopenic purpura: clinical and economic analysis.

Surgery

.

2003

;

134

:

45

-52.

141

George JN, Raskob GE, Vesely SK, et al. Initial management of immune thrombocytopenic purpura in adults: a randomized controlled trial comparing intermittent anti-D with routine care.

Am J Hematol

.

2003

;

74

:

161

-169.

142

Andres E, Zimmer J, Noel E, et al. Idiopathic thrombocytopenic purpura: a retrospective analysis in 139 patients of the influence of age on the response to corticosteroids, splenectomy, and danazol.

Drugs Aging

.

2003

;

20

:

841

-846.

143

Knauer EM, Ailawadi G, Yahanda A, et al. 101 laparoscopic splenectomies for the treatment of benign and malignant hematologic disorders.

Am J Surg

.

2003

;

186

:

500

-504.

144

Duperier T, Brody F, Felsher J, et al. Predictive factors for successful laparoscopic splenectomy in patients with immune thrombocytopenic purpura.

Arch Surg

.

2004

;

139

:

61

-66.

145

Law C, Marcaccio M, Tam P, Heddle N, Kelton JG. High-dose intravenous immune globulin and the response to splenectomy in patients with idiopathic thrombocytopenic purpura.

N Eng J Med

.

1997

;

336

:

1494

-1498.

146

Frederiksen H, Schmidt K. The incidence of ITP in adults increases with age.

Blood

.

1999

;

94

:

909

-913.

147

Apostolidis J, Tsandekidi M, Kousiafes D, et al. Short-course corticosteroid-induced pulmonary and apparent cerebral aspergillosis in a patient with idiopathic thrombocytopenic purpura.

Blood

.

2001

;

98

:

2875

-2877.

2004

Sign in via your Institution

Splenectomy for adult patients with idiopathic thrombocytopenic purpura: a systematic review to assess long-term platelet count responses, prediction of response, and surgical complications

Abstract

Introduction

Methods

Literature search

Article selection criteria

Article assessment

Assessment of platelet count response

Assessment of predictors of response

Assessment of surgical complications

Statistical methods

Results

Platelet count response

Predictors of response

Surgical complications

Discussion

Cited By

Email alerts

ASH Publications

American Society of Hematology

Splenectomy for adult patients with idiopathic thrombocytopenic purpura: a systematic review to assess long-term platelet count responses, prediction of response, and surgical complications

Abstract

Introduction

Methods

Literature search

Article selection criteria

Article assessment

Assessment of platelet count response

Assessment of predictors of response

Assessment of surgical complications

Statistical methods

Results

Platelet count response

Predictors of response

Surgical complications

Discussion

This feature is available to Subscribers Only

Cited By

Email alerts

ASH Publications

American Society of Hematology

This Feature Is Available To Subscribers Only