`
`US00?84?06l B2
`
`(I2)
`
`United States Patent
`
`Sanguinetti et al.
`
`(10) Patent No.:
`(45; Date of Patent:
`
`US 7,847,061 B2
`Dec. 7, 2010
`
`(54)
`
`TREATMENT OF SI-IORT I?«0\VEL
`SYNDROME PATIENTS WITH
`(TOLON-IN-(?ON"l'lNUI‘l'Y
`
`(75)
`
`Inventors:
`
`l<Zll:r.aheth Lemaire Sanguinettl. Salt
`[_.ake City, UT (US); Thomas B.
`Marriott. Sandy. UT (US): Jennifer
`Lnpansri. Salt‘ Lake City. UT {US}:
`(fansuelu Maria Blosch, Mercer island.
`WA (US)
`
`(73)
`
`Assignee: NPS Pharmaceuticals. lnt:..
`Bedminstcr. NJ (US)
`
`t‘)
`
`Notice:
`
`Subject 10 any disclztirner. the term of this
`patent is extended or :tdj1t:st'ed under 35
`U.S.C. 154-['|:t] by 0 days.
`
`(31)
`
`App1.Nn.: 11262.98!)
`
`(32)
`
`Filed:
`
`NM. 1, 2005
`
`['55)
`
`(G0)
`
`(51)
`
`(52)
`I53}
`
`(56)
`
`Prior Publication Data
`
`US 200610135424 Al
`
`Jun. 22. 2(l(}6
`
`Related U.S. Application Data
`
`l’r0visiot:tal atppliea1i0nN0. 6tJt’623.233. filed on Ntw.
`1, 2004.
`
`1m. (:1.
`(2005.01)
`Atsu: 3.9/26
`(2005.01)
`A6111’ 33/13
`(2005.01)
`.4011: 35/33
`53llt3tI8: 514/2; 42-0551
`U.S.Cl.
`Field nl'(Tlassllieati0n Search
`None
`
`See appliczttinti tile for complete searclt ltistnry.
`References Cited
`
`U .3. PATENT DOCUMENTS
`
`5.789.379 A
`5.tl't"t'.9r-I9 A
`6.l84.2t)l Bl *
`'t'.4Ll.t.|39 I32
`
`831098 Dntcker et .1].
`t5.-2000 Mttnmeet 0|.
`2.'3_[lt)l Drucker at al.
`8.'3t.tt}8 Thirn et :11.
`
`.............. .. 514.-"[2
`
`I*'()Rlil(iN l’f\'l‘F.NT l)OCUMl{NTS
`
`El’
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`1331219
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`S.-2003
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`wn
`Wt)
`Wt)
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`W097-*39tt9t an
`Wt} 9‘?39l.t_'l|
`Wt_l02..'DtTvt':5ll AZ:
`
`ltl-I997
`IUI I99?
`32002
`
`OTHER t=t.tBL1CAr10Ns
`
`.leppesen,el:1l.. J. Nutr.. 2003. I33. 3721-3't'24 “
`leppesc1t.cl:t|.. Il’F.N. 199‘). 23. Sltll-S105.‘
`Jeppcsert el .11. t Gnst ruenterotogy .101] l; I 2U:StI|6-8| 5}.
`K. N. Jeejeebhey. “Short bowel :iynd.r0t11e; :1 nutritional and rneslienl
`approach". CMAI; May I4. 3002. 168110). pp. I397-1 I302.
`Juppesen at al.. Impamm’ Meat 5rt'tmttarm’ film-tzgr;t:~t.tke. Pc-;r.:ric.'c2
`Respome in Heat‘ Rejected Shot‘: Bowel‘ Pateittrs tn-':'.'.I't ttttexttunt Hitt-
`mv. (:‘[J'l'. -15:55?-563 (1099).
`Jeppesen et 01.. Elevated Plnstmt Ct!.t('(tg0tt—ttk(’ Peptt'r.-‘e I mtd 2
`C'tmt'c-ntrntiorts ft: ttettnt Ran-t'tmi Short Britt-wt Pm'f¢'!h'.\' with (2 Pre-
`_\‘('r\’e’d C‘rJt’att, ("ii IT. 47:3T"U-376 {H300}.
`Jcppesert et nl..
`/tLX—t!J6t.-‘ti,
`(1 D.{tJe,0tt'aj't’ Pt¢ptfd:2_ue-fl-" tteJ.*'s'tattt
`Gttta-agott-titre Peprt'ct‘e—2 tGLP-2 ) .-l.ua1'og. ltttpmtm t’rtIes'.rt‘ttal .1-‘tttitn
`{tan in Short’ Batlwl Syndronte (SE5) Pateittts tt'£t.t‘1 a ..-'cjt.utasr0;rtJ‘.
`Gststmentcrology l22:A—l9I t2L‘ttt2t.
`Scott el 01.. {ELF-2' /l£d‘g.'itC'liI.€
`the stdapr.-‘ire Re.t'po:tse to .tlrt'a.t.w'vt.-‘
`ttttestittaf Re.s'et‘tt'0t:
`in Rat. Am. J. Physiol. tfiaslmintest. Liver
`F'l1y5i0l.38]:Gl)ll-G921tttlstst.
`Ferrnne. at al.. “Teduglutide for the treatment nFshnt1 bowel syn-
`drerne". Tl1c_»\nI'II1ls ot‘Phn.rtnac0£herapy. 20-06. ml. 40. N0. 5. I [U5-
`H09.
`
`lnlet'rtal.'t0nal l-"t'eli.tninmy Report on Patentnbility and Written Opin-
`ion issued in lnlematiunal Application No. PCT.'US20U5 T139332
`dated May 1. 100?.
`International Search Rcpt1t1 issued in International Appllentl on No.
`l’CT.-'US.It]U5-‘B39222 dated Jul. 1'.-".2D{lfi.
`
`Jeppesen. et :1] .. “'l'<.-ttttgl utitle t'Al..‘(-tlfiflfl J. :1 dipeptitlyl peptitlttse IV
`tesistanl glueagcrt-I ike pep! Ede .2 minlogtte. itupmvas intestinal fun-:—
`lion in short brjwel syndrunle patients". Gut. Vol. 5-1. No. 9. 2005,
`I224-1231.
`‘Yang. et 31.. "?s'tmel Agents in the Lre.-ttment of intestinal failttre:
`l1Lu1'tt:Iral lhcLors". Gastroenlerology. ml. I30. No. 2. 3006. S1]?-
`Sill.
`
`* cited by exantiner
`
`A1‘td1't-aw D Knsnr
`Prt'mat'_v Iitmtttner
`Asststutrt I-.‘xantfne'r Salyanarttyaua R (iudibande
`(74) /ltftorrt‘€'_t‘. stgetzt. or Ftrttt—St0Bl Rives LLP
`
`(57:
`
`ABS’l‘RA(.“l‘
`
`Intestinal absorption is enltanc-ed in short bowel sytidrutne
`patients presentittg with I:[‘lll.‘l!‘1-l11-l20l‘tll|1lJl[y by Ireatmettt
`with st GLP-2 receptur agonist. such as teduglutide.
`
`18 Claims, 2 Drawing Sheets
`
`1
`
`(cid:36)(cid:39)(cid:34)(cid:37)(cid:1)(cid:38)(cid:89)(cid:73)(cid:74)(cid:67)(cid:74)(cid:85)(cid:1)(cid:18)(cid:17)(cid:24)(cid:19)
`CFAD Exhibit 1072
`(cid:36)(cid:39)(cid:34)(cid:37)(cid:1)(cid:87)(cid:15)(cid:1)(cid:47)(cid:49)(cid:52)
`CFAD V. NPS
`(cid:42)(cid:49)(cid:51)(cid:19)(cid:17)(cid:18)(cid:22)(cid:14)(cid:17)(cid:17)(cid:26)(cid:26)(cid:17)
`IPR2015—00990
`
`
`
`U.S. Patent
`
`Dec. 7, 2010
`
`Sheet 1of2
`
`US 7,847,061 B2
`
`Figure 1.
`
`Fecal
`output
`
`Intestinal
`Absorption
`
`0.6 1.3*** 0.3
`
`Urine
`output
`
`6
`
`2.8 2.f" 3.1
`
`1.4 2.0*** 1.4
`
`5
`
`4
`
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`
`2
`
`
`
`U.S. Patent
`
`Dec. 7, 2010
`
`Sheet 2of2
`
`US 7,847,061 B2
`
`Figure 2.
`
`16
`
`14
`
`12
`
`10
`
`4
`
`2
`
`0
`
`Fecal
`output
`5.5 4.6* 5.7
`
`Intestinal
`Absorption
`6.2 7.0 5.9
`
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`
`US 7,847,061 B2
`
`2
`SUMMARY OF THE INVENTION
`
`1
`TREATMENT OF SHORT BOWEL
`SYNDROME PATIENTS WITH
`COLON-IN-CONTINUITY
`
`FIELD OF THE INVENTION
`
`This invention relates to products and methods useful
`medically to treat patients presenting with short bowel syn(cid:173)
`drome. More particularly, the invention relates to glucagon(cid:173)
`like peptide 2 (GLP-2) and other GLP-2 receptor agonists
`effective to improve intestinal function particularly in
`patients presenting with short bowel syndrome with colon(cid:173)
`in-continuity.
`
`BACKGROUND TO THE INVENTION
`
`It has now been determined that intestinal absorption is
`enhanced in SBS patients presenting with colon-in-continu(cid:173)
`ity when those patients are treated with a GLP-2 receptor
`agonist.
`Thus, in one aspect, the present invention provides a
`method for enhancing intestinal absorption in a patient with
`short bowel syndrome, comprising the steps of selecting for
`10 treatment a short bowel syndrome patient presenting with at
`least about 25% colon in continuity with renmant small intes(cid:173)
`tine, and treating said patient with a GLP-2 receptor agonist to
`enhance intestinal absorption by said patient.
`In a related aspect, the present invention provides for the
`15 use ofa GLP-2 receptor agonist in the preparation ofa medi(cid:173)
`cament for enhancing intestinal absorption in short bowel
`syndrome patients presenting with at least about 25% colon in
`continuity with renmant small intestine.
`In a preferred embodiment, the GLP-2 receptor agonist is
`20 [Gly2]hGLP-2, known as teduglutide.
`
`BRIEF REFERENCE TO THE DRAWINGS
`
`Embodiments of the invention are now described with
`25 reference to the accompanying drawings in which:
`FIG. 1 illustrates results measured in terms of fecal wet
`weight, intestinal wet weight absorption and urine weight in
`the individual patients at Baseline (Days -3 to 0), during
`30 treatment (Days 18 to 21), and at follow-up (Days 39 to 42).
`FIG. 2 illustrates results measured in terms of fecal energy
`excretion and intestinal absorption in the individual patients
`at Baseline (Days -3 to 0), during treatment (Days 18 to 21),
`and at follow-up (Days 39 to 42).
`
`DETAILED DESCRIPTION
`
`The positive effect ofGLP-2 receptor agonists on intestinal
`absorption in SBS patients that retain at least some, e.g,.
`>25%, of their colon is particularly surprising. These patients
`have essentially retained GLP-2 producing tissue and,
`indeed, show elevated basal levels of the endogenous GLP-2
`that can be as high as meal stimulated levels in normal,
`healthy individuals and that, in normal individual, is respon(cid:173)
`sible for maintenance of the intestinal lining required for
`intestinal absorption. There is nevertheless significant clini-
`cal benefit for these patients, manifest principally as
`enhanced intestinal absorption as indicated by increased
`absolute wet weight absorption, when they are treated in
`50 accordance with the present method.
`More particularly, patient candidates for the present treat(cid:173)
`ment are those presenting with SBS resulting from small
`intestine resection which may be secondary to Crohn's dis(cid:173)
`ease, vascular ischemic disease, malrotation or volvulus,
`trauma, congenital anomalies, or multiple strictures due to
`adhesions or radiation and who require parenteral nutrition to
`meet their needs. As patients presenting with short bowel
`syndrome, such patients typically retain, following resection,
`a length of small intestine that is within the range from at least
`about 25 cm and at most about 200 cm., e.g., from about
`50-150 cm. Such SBS patients include those patients present(cid:173)
`ing withjejunostomy, in which part of the jejunum is resected
`and generally all of the ileum, and/or ileostomy in which part
`of the ileum is resected and the jejunum may or may not be
`present. SBS patients withjejunostomy or ileostomy gener(cid:173)
`ally do not have any remaining colon, but if they do, it is not
`in continuity with the renmant small intestine.
`
`4
`
`The estimated prevalence of short bowel syndrome (SBS)
`patients with non-malignant disease
`requiring home
`parenteral nutrition (HPN) is at least 40 per million of the U.S.
`population. SBS usually results from surgical resection of
`some or most of the small intestine for conditions such as
`Crohn's disease, mesenteric infarction, volvulus, trauma,
`congenital anomalies, and multiple strictures due to adhe(cid:173)
`sions or radiation. Surgical resection may also include resec(cid:173)
`tion of all or part of the colon. SBS patients suffer from
`malabsorption that may lead to malnutrition, dehydration and
`weight loss. Some patients can maintain their protein and
`energy balance through hyperphagia; more rarely they can
`sustain fluid and electrolyte requirements to become indepen(cid:173)
`dent from parenteral fluid.
`Although long-term parenteral nutrition (PN) is life saving
`in patients with intestinal failure, it is expensive, impairs
`quality of life and is associated with serious complications
`such as catheter sepsis, venous occlusions and liver failure.
`Treatments that amplify absolute intestinal absorption, and 35
`eliminate or minimize the need for PN have great potential
`significance to SBS patients.
`The endogenous meal-stimulated hormone, glucagon-like
`peptide-2 (GLP-2), raises considerable interest for SBS
`patients. GLP-2 functions to slow gastric emptying, reduce 40
`gastric secretions, increase intestinal blood-flow and stimu(cid:173)
`late growth of the small and large intestine. In animal studies,
`GLP-2 administration induces mucosa! epithelial prolifera(cid:173)
`tion in the stomach and small and large intestine by stimula(cid:173)
`tion of crypt cell proliferation and inhibition of enterocyte 45
`apoptosis.
`SBS patients with end-jejunostomy and no colon have low
`basal GLP-2 levels andlimitedmeal-stimulated GLP-2 secre(cid:173)
`tion due to removal of GLP-2 secreting L-cells, which are
`located primarily in the terminal ileum and colon. This GLP-2
`deficiency results in a minimal adaptive response following
`resection and could explain the gastric hypersecretion, rapid
`intestinal transit and lack of intestinal adaptation observed in
`these SBS patients.
`Jeppesen et al. (Gastroenterology 2001; 120:806-815) 55
`have described positive benefit in an open-label study using
`pharmacologic doses of native GLP-2 in SBS jejunostomy
`patients. There was significant improvement in intestinal wet
`weight absorption and a more modest improvement in energy
`absorption that led to an increase in body weight, lean body 60
`mass and a rise in urinary creatinine excretion.
`In contrast, SBS patients with colon-in-continuity have
`elevated basal endogenous GLP-2 levels resulting in an adap(cid:173)
`tive response to resection characterized by improved wet
`weight gain and energy absorption. The potential for added 65
`benefit of pharmacologic doses ofGLP-2 receptor agonists in
`these patients is not obvious and has not been studied.
`
`
`
`US 7,847,061 B2
`
`20
`
`3
`SBS patients selected for treatment by the present method
`are those who retain, in continuity with renmant small intes(cid:173)
`tine, at least some length of their colon, such as at least about
`25%, and desirably 30%, 35%, 40%, 45% and preferably at
`least 50%, 60%, 70%, 80%, 90% or more. The remaining
`length of colon typically will be determined from the surgical
`records of a patient candidate. Expressed in other terms,
`preferred candidates for the present treatment are short bowel
`syndrome patients who retain colon sufficient to produce
`endogenous GLP-2 at levels that are at least greater than the 10
`negligible levels produced by patients with no colon, and
`ideally are similar to those GLP-2 levels produced by healthy
`volunteers. Endogenous GLP-2 levels for normal, healthy
`individuals are 15±2 pmol/L fasted, and 61±9 pmol/L fed.
`Candidates for the present treatment thus are SBS patients 15
`that retain sufficient functional colon to produce at least about
`10%, 20%, 30%, 40%, 50% or more of such levels in the fed
`state, e.g., at least about 5 pmol/L fed, and desirably 10, 15,
`20, 25, 30, 35, 40, 45, 50, 55, 60, 65 and 70 pmol/L endog(cid:173)
`enous GLP-2 in the fed state.
`In a preferred embodiment, treatment candidates are those
`short bowel syndrome patients who retain at least 50% or
`more of colon length in continuity with renmant small intes(cid:173)
`tine. Such a treatment candidate is identified herein as a
`patient with ~50% colon-in-continuity. In other preferred
`embodiments, the SBS patient with colon in continuity has a
`renmant small intestine at least about 50 cm in length which,
`desirably but not essentially, incorporates at least a portion of
`the ileum.
`The patients can be selected for treatment by the present
`method at any time following the surgical resection. That is,
`patients that are undergoing adaptation, as well as those who
`have had sufficient time to adapt following the surgery, are
`acceptable treatment candidates.
`Treatment of short bowel syndrome patients presenting
`with colon-in-continuity, in accordance with the present
`method, is effective to enhance intestinal absorption, particu(cid:173)
`larly of fluid including water and salts, but including nutrients
`as well. This effect is revealed particularly as a treatment(cid:173)
`mediated, statistically significant increase in absolute wet
`weight absorption, which is determined by subtracting fecal
`wet weight from diet wet weight using a vigorous nutrient
`absorption test. The effect of treatment is also generally seen
`as a reduction in fecal wet weight, an increase in urine wet
`weight, a reduction in energy excretion (measured as herein
`described), and in other respects noted in the examples herein.
`The present treatment method entails dosing the selected
`patient with a GLP-2 receptor agonist using a treatment regi(cid:173)
`men effective to enhance intestinal absorption. Such GLP-2 50
`receptor agonists are characterized as molecules that bind
`with, preferably selectively, and stimulate the human GLP-2
`receptor, as reported by Monroe et al. in U.S. Pat. No. 6,077,
`949 issued Jun. 20, 2000, incorporated herein by reference.
`Briefly, GLP-2 receptor agonists are revealed as agents that
`trigger production of, or trigger an elevation in the level of, a
`second messenger coupled to the human GLP-2 receptor,
`when exposed to a host cell that produces that receptor natu(cid:173)
`rally or is transfected with DNA encoding that receptor.
`In one embodiment of the invention, the GLP-2 receptor
`agonist is human GLP-2. In other embodiments, the GLP-2
`receptor agonist is a vertebrate, e.g., manmialian, homo log of
`human GLP-2. Thus, GLP-2 receptor agonists useful in
`embodiments of the present invention include GLP-2 having
`the sequence found in GLP-2 endogenous to human, cow, pig,
`primate, sheep, rodents including mouse, rat, degu and the
`like, and other vertebrate species.
`
`4
`In other embodiments, the GLP-2 receptor agonist is an
`analog ofhuman GLP-2, which incorporates at least one, and
`usually not more than 5, e.g., 1, 2 or 3, amino acid substitu(cid:173)
`tions or additions, and may also have a C-terminal truncation
`of from 1 to 5 or more amino acids.
`In a preferred embodiment, the GLP-2 receptor agonist is a
`GLP-2 peptide analog that is altered to prolong serum half(cid:173)
`life. In a particularly preferred embodiment, the GLP-2 pep(cid:173)
`tide incorporates an amino acid substitution that renders the
`peptide resistant to the endogenous enzyme dipeptidyl pep(cid:173)
`tidase IV (DPP-IV). Such analogs incorporate an appropriate
`substitution of the Ala2 residue desirably, but not essentially,
`by a genetically encoded amino acid, to permit recombinant
`production of the desired protein. Amino acids that can use(cid:173)
`fully substitute at Ala2 to provide GLP-2 analogs that retain
`GLP-2 receptor agonist activity and are less susceptible to
`DPP-IV include GLy, D-Ala, Val, Glu, Lys, Arg, Leu and Ile.
`Still other GLP-2 analogs include those substituted at MetlO
`by an amino acid that is less sensitive to oxidation.
`In alternative embodiments, the GLP-2 peptide, or GLP-2
`peptide analog is derivatized, for instance at an internal or
`substituted lysine, to prolong serum half-life by conjugation
`with lipophilic groups, with polyethylene glycol groups, with
`albumin or with any other functional group having the desired
`25 effect of reducing the rate at which the peptide is degraded
`endogenously following its administration. Such derivatized
`forms may be derivatized analogs of GLP-2, which carry
`substitutions, such as conserved or non-conserved lysine sub(cid:173)
`stitutions, having no appreciable negative effect on GLP-2
`30 receptor activation but allowing for conjugation of the desired
`functional group. It will be appreciated that these derivatized
`forms of GLP-2 or of GLP-2 analogs are considered to be
`GLP-2 receptor agonists if they exert their endogenous effect
`through the GLP-2 receptor after administration, even if this
`35 GLP-2 receptor agonist property is not displayed while in the
`pro-drug, pre-administration form.
`A wide variety of useful active GLP-2 analogs and deriva(cid:173)
`tives have been described in the literature, as revealed in U.S.
`Pat. No. 5,789,379 issued Jun. 20, 2000 and related W097/
`40 39031 published Oct. 23, 1997 which teach site-specific
`GLP-2 analogs; in W002/066511 published Aug. 27, 2003
`which teaches albumin-derivatized forms of GLP-2 and ana(cid:173)
`logs, and in W099/43361 published Oct. 14, 1999, W004/
`035624 published Apr. 29, 2004 and W004/085471 pub-
`45 lished Oct. 7, 2004 which describe lipophilic-derivatized
`forms ofGLP-2 and analogs.
`In a particularly preferred embodiment of the present
`invention, the GLP-2 receptor agonist is [Gly2]hGLP-2,
`known as teduglutide.
`The dosing regimen effective to treat the SBS patients with
`colon-in-continuity entails delivering the selected GLP-2
`receptor agonist to the patient for a time and at a dose suffi(cid:173)
`cient to enhance intestinal absorption. As noted in the
`examples herein, and according to a preferred embodiment of
`55 the present invention, one suitable treatment regimen entails
`once daily administration of teduglutide, by subcutaneous
`injection in the abdomen, thigh or arm, at a dose in the range
`from 30 to 150 ug/kg/day for a period of about 21 days. It is
`anticipated that effective daily doses ofteduglutide, as well as
`60 human GLP-2 per se and other GLP-2 receptor agonist with
`comparable properties, will lie generally in the broader range
`from about 5 to 500 ug/kg/day e.g., from 10 to 400 ug/kg/day,
`such as 20 to 300 ug/kg/day.
`It will be appreciated from these results that a similarly
`65 beneficial effect can be expected when using either tedug(cid:173)
`lutide, or when using a related GLP-2 receptor agonist, in an
`alternative dosing schedule. With respect to teduglutide per
`
`5
`
`
`
`US 7,847,061 B2
`
`6
`hepatic or cardiac diseases; no glutamine for at least four
`weeks prior to screening; no growth factors or participation in
`any clinical trial within three months of screening (except use
`of teduglutide in patients in the rechallenge group). SBS
`patients with ~50% colon-in-continuity had a demonstrated
`fecal weight exceeding 1 kg/day and fecal energy loss
`exceeding 2 MJ/day [478 Kcal/day].
`Women of childbearing age had to have a negative blood
`~-human chorionic gonadotropin test before inclusion in the
`study and used effective contraceptives during the study.
`Usual medications such as proton pump inhibitors, codeine,
`loperamide, and oral and parenteral supplements were kept
`constant. Local Ethics Committees or Institutional Review
`Boards approved the protocol. Procedures were in accor(cid:173)
`dance with ethical standards of the Helsinki Declaration of
`1964 as modified by the 48'h World Medical Association in
`1996. Each eligible patient signed an informed consent form
`prior to study.
`
`5
`se, administration twice daily or still more frequently can be
`beneficial. Twice daily (every 12 hours) dosing usefully deliv-
`ers about 5 to 250 ug/kg/dose. Benefits can also accrue to
`schedules that entail shorter or, more desirably, longer term
`dosing, such as from about 14 days to many months or even
`years. Maintenance dosing also is desirable, in which patients
`receive either continued or follow up dosing. Follow-up dos(cid:173)
`ing usefully occurs at regular frequencies such as weekly,
`biweekly, every month, every three months, etc. Continued
`dosing usefully provides to the patient a dose efficient to 10
`maintain the benefits of increased absorptive surface area
`with increased intestinal absorption that arise from initial
`treatment, and can be effected by dosing the patient at least
`once within every 1-28 days, e.g., every other day, 2-3 times
`per week, once per week, etc. Continued or follow-up dosing 15
`can be important to preserve the medical benefits mediated by
`the GLP-2 receptor agonist; as noted in the examples,
`improvements in intestinal absorption following treatment
`with teduglutide for instance, can be lost rapidly, for example
`within four weeks following cessation of dosing.
`The teduglutide dosing regimen herein described is useful
`to determine effective dosing schedules for other GLP-2
`receptor agonists for which pharmacokinetics properties are
`either already known or can be determined, by relating phar(cid:173)
`macologic, pharmacokinetic and pharmacodynamic proper- 25
`ties, in accordance with standard practise in drug develop-
`ment.
`It will be appreciated that the route of administration, and
`the particular dosage form of the GLP-2 receptor agonist, will
`be chosen to preserve and desirably optimize the effect of the
`drug. Administration by injection, such as subcutaneous,
`intramuscular, intravenous, etc., is suitable. Alternatively, the
`drug may be administered by infusion or by any other route
`that delivers the drug to the target site on the serosal side of the
`intestinal tissue, such as by depot injection. If delivered by
`injection, the drug can be formulated as a lyophilized powder
`for reconstitution by the user, and as either unit or multiple
`doses. One formulation of teduglutide, for instance, is
`described in WOOl/49314 published Jul. 12, 2001, and pro(cid:173)
`vides a powder for reconstitution in which teduglutide is
`present with L-histidine, mannitol and sodium phosphate.
`This is usefully provided as a 3 mL glass vial containing 10
`mg teduglutide, for reconstitution with 1 mL water for injec(cid:173)
`tion and self-administration. An alternative formulation pro(cid:173)
`vides 10 mg of teduglutide in a smaller volume of aqueous 45
`vehicle, such as 0.5 mL water for injection.
`Most suitably, the chosen treatment parameters, including
`choice of GLP-2 receptor agonist, and dosing schedule, are
`selected to provide optimal enhancement of intestinal absorp(cid:173)
`tion, e.g. to provide for an increase in the volume of fluid and 50
`the nutrients absorbed by the patient, which is revealed for
`instance as a decrease of at least about 5%, 10%, 15%, 20% or
`more in fecal wet weight, and/or an increase of at least about
`5%, 10% or more in urine weight.
`Embodiments of the invention are exemplified below:
`
`Patients
`Study subjects were recruited from centers in the U.S. and
`Denmark that care for patients receiving PN. All patients had
`undergone extensive resection of the small intestine without
`any surgical resection of the stomach, duodenum or pancreas.
`Study inclusion criteria were: Over 18 years of age; diag(cid:173)
`nosis of SBS that could be secondary to Crohn's disease,
`volvulus, injury or vascular ischemia, remnant small intestine
`of 150 cm or less; no clinical evidence of active inflanimatory
`bowel disease (IBD) or fistulas; no history of radiation enteri(cid:173)
`tis, or sprue; no alcohol or drug abuse; no significant renal,
`
`20 Study Protocol
`This was an open-label, pilot study to determine the safety
`and effect of teduglutide in patients with short bowel syn(cid:173)
`drome (SBS). The patient's history was reviewed and a physi(cid:173)
`cal examination performed to determine eligibility before
`inclusion in the study. Estimated residual small intestine and
`colon lengths were determined by reviewing operative
`reports and available radiographic studies. Eligible patients
`were admitted as inpatients to hospital wards or General
`Clinic Research Centers (GCRC) on three separate occa-
`30 sions, 18 days apart, for the last four days and three nights of
`the baseline period and at the end of the treatment and follow(cid:173)
`up periods. Treatment consisted of recombinant teduglutide
`(supplied by NPS Allelix, Mississauga, ON, Canada) formu(cid:173)
`lated as a lyophilized powder with L-histidine, mannitol, and
`35 monobasic and dibasic sodium phosphate (Lot 8502901).
`Water was added to reconstitute the drug for administration
`by subcutaneous ( s.c.) injections in the abdomen or thigh. Ten
`SBS patients withjejunostomy received 0.03 mg/kg/d, 0.10
`mg/kg/d or 0.15 mg/kg/d once daily for 21 days. Five SBS
`40 patients with ~50% colon-in-continuity received teduglutide
`0.10 mg/kg/d once daily for 21 days.
`During each inpatient period, patients underwent 72-hour
`nutrient balance and D-Xylose absorption studies, and a
`proximal or distal endoscopy to ascertain the condition of the
`intestinal mucosa and obtain biopsy samples. Injejunostomy
`patients, biopsies were obtained through the jejunostomy
`stoma or by upper gastrointestinal endoscopy. In patients with
`colon-in-continuity, colo-rectal biopsies were obtained.
`Teduglutide treatment began on Day 1 (immediately after the
`baseline period) and continued once-daily for 21 days. On the
`first and last day of dosing, all patients had blood collections
`for plasma levels and pharmacokinetic parameters and to test
`for any antibodies to teduglutide or E. coli protein. Patients
`were monitored for safety (adverse events, physical exams,
`55 vital signs, ECGs, laboratory results, and injection site exami(cid:173)
`nations) during the inpatient periods and during outpatient
`visits on days 7 and 14.
`The 72-hour nutrient balance studies were completed with
`each patient eating their usual diet, calculated from a seven-
`60 day food diary completed by the patient during the screening
`period. It was intended that patients eat the same quantity and
`quality of food and beverages during each admission. During
`the 72-hour balance periods, all oral intake (duplicate meals
`and beverages and declined food), fecal/stomal output, and
`65 urine were collected and weighed. All stool samples were
`refrigerated during the collection period. Stools and diets
`were separately homogenized and analyzed for energy con-
`
`6
`
`
`
`US 7,847,061 B2
`
`8
`
`Compliance
`Jejunostomy patient 03, who was found to have a segment
`of colon-in-continuity, and patient 20, known to have colon(cid:173)
`in-continuity, did not complete the follow-up period. Drug
`compliance (counting the numberofretumed vials) was com(cid:173)
`plete in all patients participating during the nutrient balance
`periods. During the 21 day treatment period, drug compliance
`was complete, except in one patient with colon-in-continuity,
`who administered the full dose for 15 days, half-doses for two
`days, and no dose for four days.
`
`7
`tent (by bomb calorimetry), nitrogen (by the macro(cid:173)
`Kjeldahl's method), fat (by the gravimetric technique), and
`sodium and potassium (by atomic absorption).
`D-Xylose was used to test intestinal carbohydrate absorp(cid:173)
`tion. After an overnight fast, patients drank a test solution of 5
`25 g D-Xylose in 200-mL distilled water over a 2-3 minute
`period. A blood sample was taken at two hours and urine
`collected for 5-hours following ingestion.
`
`10
`
`Morphological Analysis
`Endoscopic examinations were performed in each subject
`at the completion of baseline, treatment and follow-up
`phases. All tissue samples for measurement of villus height
`and crypt depth were prepared and analyzed in a blinded
`fashion by the same pathologist. Villus height and crypt depth 15
`were measured using light microscopy (eyepiece microme(cid:173)
`ter) as the mean of ten well-oriented villi and crypts. The
`number of mitotic figures per 100 crypt epithelial cells was
`calculated.
`
`Statistics
`Using the SAS (Version 8.2; SAS Institute, Cary, N.C.)
`statistical program, a Student's paired t test was employed
`that compared treatment to baseline values, and follow-up to
`baseline values. No comparisons were made between patients
`on different doses or with different anatomy due to the limited
`number of patients in the study. Data are expressed as
`mean±SD. A value of p<0.05 was considered significant.
`
`Results
`
`Safety Results
`All patients were monitored for safety. There were no
`deaths and no withdrawals due to adverse events (AEs). Two
`patients with evaluable data reported a serious AE of catheter(cid:173)
`related infection or catheter-related complication following
`dosing. None of these were judged to be related to tedug(cid:173)
`lutide. The incidence of AEs was similar between groups. The
`20 most commonAEs were edema of the lower limbs, and local(cid:173)
`ized swelling of the jejunostomy nipple. Other AEs included
`headache and abdominal pain. Three patients had minor
`injection site reactions (single events of bruising, induration,
`rash; four events of erythema). No clinically significant
`25 abnormal laboratory values were identified in relation to tedu(cid:173)
`glutide treatment. No safety concerns were raised from vital
`signs or ECGs. No antibodies to teduglutide were detected.
`One patient had a relative E. coli protein antibody titer of
`1: 1624, and six patients had relative titers between 1: 107 and
`30 1 :228, after treatment.
`Endogenous GLP-2 Levels
`For patients with ~50% colon-in-continuity, fasting con(cid:173)
`centrations of endogenous GLP-2 were measured prior to
`administration of teduglutide. For four of the five subjects,
`their concentrations were between the mean levels for fasted
`and fed healthy volunteers (fasted (15±2 pmol/L) and fed
`(61±9 pmol/L)), measured as described by Hartmami et al.
`(Peptides 21 2000; 73-80, incorporated herein by reference).
`The levels for the five subjects were 16, 27, 37, 41, and 73
`pmol/L.
`
`Patients
`Sixteen SBS patients (nine females, seven males) enrolled
`in this open-label, multicenter, dose-ranging pilot study and
`received teduglutide. Four U.S. sites recruited 6 patients and
`one Danish site recruited 10 patients. The baseline character- 35
`istics of these 16 patients treated are given in Table 1. These
`patients were subdivided into an end-jejunostomy group of 10
`(Group 2) and ~50% colon-in-continuity group of 5 (Group
`3 ). There were originally 11 jejunostomy patients, but patient
`03 was found on biopsy to have a renmant segment of colon, 40
`later estimated to be 30%. This individual was not included in
`any subgroup analysis. As judged from analysis of duplicate
`meals adjusted for declined food, some patients had better
`dietary consistency than others. Patients who had an oral food
`intake where the dietary wet weight and energy content at 45
`treatment did not differ more than 10% from baseline values
`were termed "high dietary compliance". Ten patients had a
`high dietary compliance ( <l 0% va